phd blockchain

Explore your training options in 10 minutes Get Started

• Graduate Stories
• Partner Spotlights
• Bootcamp Prep
• Bootcamp Admissions
• University Bootcamps
• Coding Tools
• Software Engineering
• Web Development
• Data Science
• Tech Guides
• Tech Resources
• Career Advice
• Online Learning
• Internships
• Apprenticeships
• Tech Salaries
• Associate Degree
• Bachelor's Degree
• Master's Degree
• University Admissions
• Best Schools
• Certifications
• Bootcamp Financing
• Higher Ed Financing
• Scholarships
• Financial Aid
• Best Coding Bootcamps
• Best Online Bootcamps
• Best Web Design Bootcamps
• Best Data Science Bootcamps
• Best Technology Sales Bootcamps
• Best Data Analytics Bootcamps
• Best Cybersecurity Bootcamps
• Best Digital Marketing Bootcamps
• Los Angeles
• San Francisco
• Browse All Locations
• Digital Marketing
• Machine Learning
• See All Subjects
• Bootcamps 101
• Full-Stack Development
• Career Changes
• View all Career Discussions
• Mobile App Development
• Cybersecurity
• Product Management
• UX/UI Design
• What is a Coding Bootcamp?
• Are Coding Bootcamps Worth It?
• How to Choose a Coding Bootcamp
• Best Online Coding Bootcamps and Courses
• Best Free Bootcamps and Coding Training
• Coding Bootcamp vs. Community College
• Coding Bootcamp vs. Self-Learning
• Bootcamps vs. Certifications: Compared
• What Is a Coding Bootcamp Job Guarantee?
• How to Pay for Coding Bootcamp
• Ultimate Guide to Coding Bootcamp Loans
• Best Coding Bootcamp Scholarships and Grants
• Education Stipends for Coding Bootcamps
• Get Your Coding Bootcamp Sponsored by Your Employer
• GI Bill and Coding Bootcamps
• Tech Intevriews
• Our Enterprise Solution
• Connect With Us
• Publication
• Reskill America
• Partner With Us

• Resource Center
• Bachelor’s Degree
• Master’s Degree

Best Doctorates in Blockchain: Top PhD Programs, Career Paths, and Salaries

Blockchain technology is the foundation of Web3, an idea many consider to be the next evolutionary step of the World Wide Web. This idea has taken the world by storm and sparked academic interest, leading to research into blockchain technology. These pockets of research have matured into some of the best PhDs in Blockchain.

Blockchain seeks to provide a secure, decentralized, and distributed database of digital ledgers separate from centralized organizations. This article examines the best blockchain PhDs you can obtain to contribute to developing and advancing this emerging technology. It also shows you the best blockchain jobs waiting for you upon graduation.

Find your bootcamp match

What is a phd in blockchain.

A PhD in Blockchain is a postgraduate degree awarded to those who have completed either a research project or doctoral program in blockchain technology and other related fields. This degree is the highest academic qualification you can achieve in blockchain. A blockchain PhD program offers many areas of specialization, from computer science to business and finance.

How to Get Into a Blockchain PhD Program: Admission Requirements

The admission requirements to get into a blockchain PhD program are a bachelor’s degree and/or a master’s degree in any field related to blockchain, a proposal letter to your intended supervisor, and your undergraduate and master’s academic transcripts.

Other admission requirements include a language proficiency certification for non-native English speakers, recommendation letters, and a minimum undergraduate GPA. Many schools also request proof of sufficient funding to cover the duration of your program. In addition to these requirements, you will have to demonstrate knowledge of topics related to the specific program.

PhD in Blockchain Admission Requirements

• Bachelor’s or master’s degree in blockchain or related fields
• Undergraduate and master’s academic transcripts
• A proposal letter to your intended supervisor
• Language proficiency certification (for international students)
• Sufficient funds to cover the duration of your program

Blockchain PhD Acceptance Rates: How Hard Is It to Get Into a PhD Program in Blockchain?

It is not very hard to get into a PhD program in blockchain. Blockchain is a relatively new field and it is not yet established as an independent field of study. Consequently, you have to major in another program and study blockchain as a concentration. Note that some of these programs tend to be competitive and accept only the very best of all applicants.

How to Get Into the Best Universities

[query_class_embed] how-to-get-into-*school

Best PhDs in Blockchain: In Brief

Best Universities for Blockchain PhDs: Where to Get a PhD in Blockchain

The best universities for blockchain PhDs are those that have a strong research focus on blockchain technology and its impact on finance. Most of them feature a research center or laboratory dedicated to blockchain, cryptography, and digital currency research. If you’re wondering where to get a PhD in Blockchain, this section examines the best available options.

Operating for more than 250 years, Columbia University is the oldest higher learning institution in New York state. It has very high research activity and has pioneered several scientific breakthroughs. Columbia is a leading university in technological innovation, with its researchers producing more than 400 new inventions every year .

PhD in Computer Science

This program has a strong focus on research and emphasizes practical work. The department of Computer Science conducts research in all areas of computer science, including blockchain and network security. In addition, several faculty members serve as advisers to PhD candidates at the Columbia-IBM Center for Blockchain and Data Transparency.

PhD in Computer Science Overview

• Program Length: 5 - 6 years
• Acceptance Rate: N/A
• Tuition: $25,248/semester
• PhD Funding Opportunities: Graduate research assistantship, internal or external fellowship

PhD in Computer Science Admission Requirements

• Bachelor’s degree or master’s degree
• Official transcripts from all post-secondary institutions attended
• Standard test scores including GRE (temporarily optional)
• Language proficiency scores for TOEFL, IELTS, PTE, or DET (for non-native English speakers)
• Three letters of recommendation
• A written statement of purpose explaining your background and intended study
• Application fee of $85

Fordham University was established in 1841, making it one of the oldest Jesuit Catholic universities in the country. Fordham has an active cooperative education program, evidenced by internship partnerships with at least 3,500 companies. The school also has high research activity, with six of its 10 constituent schools and colleges being graduate schools.

PhD in Business

This PhD program from the Gabelli School of Business offers students the opportunity to specialize in one of the eight available fields of study, including accounting, business law and ethics, marketing, and finance. The program curriculum contains several courses in blockchain and digital currency.

PhD in Business Overview

• Program Length: 5 years
• Tuition: $1,732/credit
• PhD Funding Opportunities: Loan programs, gift aid, assistantships, veteran initiatives 

PhD in Business Admission Requirements

• Official transcripts for every previously obtained degree
• A minimum GPA of 3.5 on a 4-point scale
• Your resume or CV
• A writing sample to demonstrate your research and writing skills 
• Standard test scores including GRE and TOEFL, IELTS (for non-native English speakers)
• A one- to two-page statement of purpose summarizing your past academic achievements and current interests
• Interview (optional)
• Non-refundable application fee of $75

Massachusetts Institute of Technology (MIT) is one of the best global universities , second only to Harvard University, according to US News & World Report. It was founded in 1861 and established its MIT Sloan School of Management in 1914. The graduate programs at MIT Sloan are some of the most selective globally and involve collaboration with other top schools like the Harvard Kennedy School.

MIT Sloan PhD

MIT Sloan offers this PhD in General Management Studies. Graduate students can research topics in business, finance, economics, accounting, and behavioral and policy sciences. The school also features a Blockchain lab where students can experiment with cryptographic and blockchain technologies.

MIT Sloan PhD Overview

• Program Length: 6 years
• Tuition: $80,400/year
• PhD Funding Opportunities: Student loans and scholarships, assistantship, research fellowship

MIT Sloan PhD Admission Requirements

• Bachelor’s degree or equivalent
• A strong background related to your chosen concentration. For example, accounting requires calculus
• Knowledge of microeconomics and macroeconomics
• Statement of purpose
• Transcripts for all post-secondary institutions attended (even if you did not graduate)
• Video essay (optional based on program)
• 3 letters of recommendation 
• Valid GMAT or GRE scores 
• Valid TOEFL or IELTS scores (non-native English speakers)

Established in 1885, Stanford University is a private research institution with a strong focus on entrepreneurship. This school is one of the four best national universities offering a doctoral computer program. Stanford is helping to shape the future of the Internet through its Center for Blockchain Research .

This doctoral program is the only available PhD from the Department of Computer Science. It provides a broad range of topics for graduate students to conduct their research on, including blockchain. Several department members work at the Stanford Center for Blockchain Research, and they offer to supervise PhD candidates in blockchain research. 

• Tuition: $18,105/quarter
• PhD Funding Opportunities: 5-year funding guarantee, assistantship, research fellowship
• Undergraduate transcripts
• TOEFL scores (for non-native English speakers)
• 3 letters of recommendation
• A non-refundable $125 application fee 

The University of Bern, over its 187-year history, has spread out all over the city of Bern, the capital of Switzerland. The university offers more than 100 graduate programs from its eight faculties and 150 institutes. It has also established 10 strategic centers for research to fulfill one of its mission goals. 

This English-taught program involves close collaboration with a supervisor from the Institute of Computer Science. PhD candidates can research areas covered by research groups within the institute, including the Cryptology and Data Security Research Group. This group focuses on applying cryptographic protocols to blockchains, distributed ledger technology, cryptocurrencies, and their economics.

• Program Length: 3 - 4 years
• Tuition and Fees: CHF 750 (approx. $753.08)/semester (residents of Switzerland); CHF 950 (approx. $954.14)/semester (non-residents of Switzerland)
• PhD Funding Opportunities: Assistantship, doctoral post, funding from the Swiss National Science Foundation
• A bachelor’s degree and/or master’s degree from a recognized university
• Certified photocopies of academic transcripts
• A resume showing an uninterrupted timeline of your academic studies
• A photocopy of a valid identification card or international passport
• A declaration of consent
• Fulfill the requirements stipulated by the relevant faculty or graduate school

The University of British Columbia was founded in 1908 and is ranked second among the best universities in Canada  and among the top 40 globally. It is notable for its research activities and funds an estimated 10,000 projects with a research budget of $795.1 million. International students make up about 25 percent of the student population at UBC.

PhD in Electrical and Computer Engineering

This program is designed to provide students the ability to perform independent research in fields like communications systems, energy systems, and micro and nanotechnologies. PhD candidates can also conduct research under the auspices of the Blockchain@UBC research cluster. This group provides blockchain training to augment existing PhD programs.

PhD in Electrical and Computer Engineering Overview

• Acceptance Rate: 21%
• Tuition and Fees: $5,301.54 CAD (approx. $4,135.90)/year (residents of Canada) ; $9,313.92 CAD (approx. $7,266.08)/year (nonresidents of Canada)
• PhD Funding Opportunities: PhD minimum funding, scholarships, research assistantships, internal or external tuition awards, additional funding for Blockchain students

PhD in Electrical and Computer Engineering Admission Requirements

• A bachelor’s degree and/or master’s degree in electrical engineering, computer science, or related fields
• Minimum GPA of 3.3 on a 4-point scale
• Citizenship verification for permanent residents
• A statement of interest

The University of California, Berkeley offers more than 100 graduate programs from its 14 schools and colleges. UC Berkeley has high research activity and is host to several research centers, including the Space Sciences Laboratory. It also has nine Nobel prize winners among its current researchers.

PhD in Finance

This PhD program is one of the fields of study available at the Berkeley Haas Business School. It aims to contribute to the latest innovations and technology in finance. One such innovation is blockchain, and the UC Berkeley Haas Blockchain Initiative aids in its development. The initiative funds research in distributed ledger technology, applied cryptography, and global financial inclusion.

PhD in Finance Overview

• Acceptance Rate: 11%
• Tuition and Fees: $35,822.75/year (in state); $39,051.25/year (out of state)
• PhD Funding Opportunities: Grants, awards, research fellowships

PhD in Finance Admission Requirements

• A bachelor’s degree or equivalent from an accredited university
• A minimum GPA of 3.0 on a 4-point scale
• IELTS and TOEFL test score (non-native English speakers)
• A personal statement and a statement of purpose
• A non-refundable application fee of $120

UCLA, formerly the southern branch of UC Berkeley, was established as a separate university in 1951. UCLA has over 14,000 graduate and professional students enrolled in its eight professional schools.  

The UCLA computer science PhD program provides nine fields of study to students including computer network systems and artificial intelligence. The school also features the UCLA Connection Lab where PhD students can research blockchain and applied cryptography under the supervision of computer science faculty members.

• Tuition and Fees: $17,756/year (in state); $32,858/year (out of state)
• PhD Funding Opportunities: University-wide fellowships, research grants, departmental funding, teaching assistantships, traineeships
• Bachelor’s degree from accredited institution
• An academic transcript from every post-secondary institution attended
• A minimum undergraduate GPA of 3.0 on a 4-point scale
• At least three letters of recommendation
• GRE scores (optional) 
• A personal history statement and statement of purpose
• Application fee of $120 (US citizens and permanent residents); $140 (all other applicants)

Operating since 1583, the University of Edinburgh is the sixth-oldest running university in the world . The school is proud to be a global university and offers hundreds of PhD programs to local and international candidates. It also hosts more than 20 research centers and institutes.

PhD in Cyber Security, Privacy, and Trust

This PhD program trains students as researchers in digital information security, privacy, and trust topics. It also teaches students how to design technologies based on the understanding of the law, business processes, cost, and useability. Presently, the Blockchain Research Laboratory at the university is advertising open positions for PhD candidates from the School of Informatics.

"Career Karma entered my life when I needed it most and quickly helped me match with a bootcamp. Two months after graduating, I found my dream job that aligned with my values and goals in life!"

Venus, Software Engineer at Rockbot

PhD in Cyber Security, Privacy, and Trust Overview

• Program Length: 3 years
• Tuition and Fees: £4,596 (approx. $5,779.24)/year (domestic & UK); £28,000 (approx. $35,205.77)/year (international)
• PhD Funding Opportunities: UK government postgraduate loans, scholarships, departmental funding, fellowships

PhD in Cyber Security, Privacy, and Trust Admission Requirements

• A minimum of UK 2:1 honors or its international equivalent in computer science, mathematics, or a related discipline
• A master’s degree in a relevant subject 
• A research proposal
• English language competency tests such as TOEFL or IELTS

The University of Portsmouth is a public university that was founded in 1870. It offers 150 postgraduate degrees and 65 research programs from its five faculties and 25 departments. Portsmouth is one of only four universities in the southeast region of the UK possessing the highest gold rating in the Teaching Excellence Framework. 

PhD in the Economics of FinTech and Digital Money

This program focuses on understanding the benefits and risks of FinTech. It also aims to contribute to the development of financial technology such as blockchain, artificial intelligence, and the Internet of Things (IoT). The three areas of research in the program are Central Bank Digital Currency (CBCD), cryptocurrency, and alternative finance.

PhD in the Economics of FinTech and Digital Money Overview

• Tuition and Fees: £4,500 (approx. $5,665.70)/year (United Kingdom and Europe); £16,300 (approx. $20,522.43)/year (international)
• PhD Funding Opportunities: Government doctoral loans, scholarships, referral awards

PhD in the Economics of FinTech and Digital Money Admission Requirements

• A minimum of second class upper honors in bachelor’s degree or equivalent or a Master’s in Economics, Finance, or related degrees
• English language proficiency at a minimum IELTS score band of 6.5
• A research proposal of 1,000 words
• Strong quantitative skills including statistics, programming, and mathematics. 
• Competency in MATLAB, Stata, Python, or R software packages

Can You Get a PhD in Blockchain Online?

Yes, you can get a PhD in Blockchain online. Blockchain is a suitable field for online studies due to its digital nature. Several schools provide online PhD programs with blockchain courses where you can conduct research using a flexible schedule. The following section outlines some of these schools and the programs they offer.

Best Online PhD Programs in Blockchain

How Long Does It Take to Get a PhD in Blockchain?

It generally takes five years to get a PhD in Blockchain. You will spend the first year meeting with your supervisor and attending lectures. In the second to fourth years, you will conduct research, collect results, and plan your thesis layout. During the fifth year, you will spend much of your time writing your thesis and completing any research.

A PhD takes noticeably longer than a master’s degree to complete because it is an advanced degree and requires extensive study. You have to present satisfactory research results to the examining body to get approval for your degree. Moreover, your program duration may increase if you do not complete your research within the allocated time.

Is a PhD in Blockchain Hard?

No, a PhD in Blockchain is not hard. Most blockchain PhDs research the societal, economic, and financial impact of blockchain without delving deep into its technological aspects. This research direction is relatively easier to pursue compared to other blockchain PhDs.

Nevertheless, you should note that blockchain involves some advanced concepts like applied cryptography, smart contracts, and distributed ledger technology. PhDs in these research areas may seem challenging, but your program’s faculty can aid in your research. You can also use online resources to guide you on how to learn blockchain technology .

How Much Does It Cost to Get a PhD in Blockchain?

It costs between $1,000 and $80,000 per year to get a PhD in Blockchain. The exact cost depends on your university and program of study. Generally, private universities cost more money to attend than public universities.

In many US universities, rather than you paying for the program, the school pays you a monthly stipend. This arrangement is tailored more to research PhDs than academic PhDs. These funding options are worthwhile to consider when searching for funding for your degree.

How to Pay for a PhD in Blockchain: PhD Funding Options

The PhD funding options that students can use to pay for a PhD in Blockchain include research grants from the government or university, scholarships, tuition waivers from the university, and salaried research fellowship positions. In rare cases, your supervisor might make a special request for you as a research student and offer to bear the cost of your education.

Best Online Master’s Degrees

[query_class_embed] online-*subject-masters-degrees

What Is the Difference Between a Blockchain Master’s Degree and PhD?

The difference between a blockchain master’s degree and a PhD is the length of study. A master’s degree in blockchain usually requires one to two years of study with a semester-long thesis concluding the program. On the other hand, a PhD in Blockchain requires three to five years of advanced research and results in peer-reviewed publications.

Another difference is that a master’s degree is more career-oriented and provides more employment opportunities. A PhD is research-oriented and focuses more on contributing to the blockchain field. Finally, a PhD is a higher academic qualification than a master’s and costs more money to attain.

Master’s vs PhD in Blockchain Job Outlook

A PhD in Blockchain is most useful when you want to pursue a career in academia like lecturing or a research fellowship. Corporations usually do not require a higher qualification than a master’s degree. The Bureau of Labor Statistics projects a 12 percent job growth for blockchain academic positions through 2030.

Difference in Salary for Blockchain Master’s vs PhD

The average salary for a Master’s Degree in Blockchain or other related fields is $107,000, while the average salary for a PhD in the same fields is $133,000, according to PayScale. This significant difference shows the prestige proffered upon a PhD by employers. Job seekers with a blockchain PhD get more offers for senior positions than their contemporaries with a master’s degree.

Unfortunately, these figures do not tell the entire story. Corporate jobs that require a PhD qualification are few and far between, hence the lucrative salary. Many blockchain PhD holders have to settle for jobs that they are overqualified for or go into academia. However, you should know that most blockchain jobs that do not need a PhD still have salaries much higher than the national average.

Related Blockchain Degrees

[query_class_embed] https://careerkarma.com/blog/how-to-become-a-blockchain-developer/ https://careerkarma.com/blog/what-is-blockchain/ https://careerkarma.com/blog/best-schools-for-blockchain/

Why You Should Get a PhD in Blockchain

You should get a PhD in Blockchain because it enables you to contribute to the development of revolutionary blockchain technology. An undergraduate or Master’s Degree in Blockchain will only teach you how to use the technology developed by others. Other reasons why you should get a PhD in Blockchain are listed below.

Reasons for Getting a PhD in Blockchain

• Academic Recognition. Blockchain is an emerging field with relatively few people pursuing an advanced degree, meaning fewer competitors. If you get a PhD in this field, you can gain recognition among the world’s leading blockchain experts.
• Lucrative Job Opportunities. The jobs available to a blockchain PhD holder have some of the best salaries when weighed against the national average. Furthermore, companies are more likely to employ PhD holders in senior blockchain positions.
• Travel Experience. Pursuing a blockchain PhD often involves moving to other cities or even countries. This program will grant you the opportunity to gain life experiences to bolster your academic prospects.
• Valuable Connections. During your PhD program, you will work with an amazing team of researchers and make new connections. By the end of your program, you will have developed an extensive peer network that can assist you throughout your career.

Getting a PhD in Blockchain: Blockchain PhD Coursework

Getting a PhD in Blockchain means that you have to satisfy several graduation requirements. One of those requirements is that you complete the blockchain PhD coursework. The following section describes some of the blockchain courses you will encounter in a typical curriculum for this program.

Cryptocurrency and Blockchains

This course introduces students to concepts such as cryptocurrency, blockchain fundamentals, smart contracts, digital assets, and decentralized finance. It also studies the applications of FinTech in real estate, banking, and corporate finance. Students will also learn the usefulness of  FinTech in their personal finances and investments.

Blockchain in Business Research

In this course, students will learn how to develop conceptual and practical business solutions. In addition, they will examine the inner workings of blockchain technology and its effects on a business model. This course will explain the paradigm shifts occurring from economics, organizational, and computer science viewpoints.

Blockchain Ethics

This course examines the impact blockchain technology has on modern society. Students will learn how blockchain technologies like cryptography and artificial intelligence influence the evolution of blockchain organizations. Students will also explore the history and philosophy of blockchain as well as methods to shape this technology.

Introduction to Cryptography

Students will develop a background in cryptography from this course. This course explains cryptography for blockchains primitives and how to use them correctly. At the end of this course, you will understand several cryptographic techniques and their applications. This course is very complex, and you will need supplementary training from external cryptography bootcamps .

The Blockchain Ecosystem and Applications

This course examines the stakeholders that make up the global blockchain community and their roles, incentives, and organizational dynamics. Students learn strategies to apply blockchain technology in cryptocurrencies and digital assets, governance, and economics.

Best Master’s Degrees

[query_class_embed] *subject-masters-degrees

How to Get a PhD in Blockchain: Doctoral Program Requirements

Knowing how to get a PhD in Blockchain goes beyond enrolling in your program and writing a dissertation. There are several other hurdles to jump over to become a successful candidate. Every university uses its own set of doctoral program requirements and the following list highlights the prerequisites common to all universities.

You have to obtain at least the minimum required grade point average and maintain it through every semester of your program. Most universities stipulate the minimum GPA to be 3.0 but the exact value depends on the university and the program of study.

You must complete the required amount of master’s degree and PhD credit hours to be eligible for graduation. The number of credits varies for each school and program but most universities mandate you to complete a large percentage of them during the master’s program.

PhD programs require students to complete a final examination and successfully verify the results. In some universities, you may have to complete a series of oral and written tests throughout your program. The examination office then collates the results to access your performance.

Universities expect PhD students to complete their research and defend their thesis within five years. You can request an additional one to two years to finish your work, after which the school may withdraw your candidacy. 

The entirety of your PhD in Blockchain culminates in a written thesis based on your academic research. You will have to submit this thesis for examination and defend it from scholarly criticism by internal and external examiners. Finally, you must submit a copy of the accepted thesis to the university while adhering to the stipulated guidelines for submission.

Potential Careers With a Blockchain Degree

[query_class_embed] how-to-become-a-*profession

PhD in Blockchain Salary and Job Outlook

Blockchain is revolutionizing the Internet, and we are only just beginning to understand its potential impact on every facet of a modern economy. To this effect, Indeed states that employers are willing to pay an annual salary of up to $130,000 to employees with a blockchain PhD .

What Can You Do With a PhD in Blockchain?

With a PhD in Blockchain, you can work as a researcher or a postsecondary teacher in academia. You can also use the mathematics and programming skills gained during your study to work as a cryptographer or software engineer. The blockchain PhD curricula also equip you with the skills needed for success in a blockchain engineering position.

Best Jobs with a PhD in Blockchain

• Blockchain Engineer
• Cryptographer
• Software Engineer
• Blockchain Postsecondary Teacher
• Blockchain Researcher

What Is the Average Salary for a PhD in Blockchain?

The average salary for a PhD in Blockchain holder is $110,140, according to the Bureau of Labor Statistics. You can earn more than this amount depending on your employer, job location, and experience. As this is a rapidly advancing field, the job prospects and average salary are unsurprisingly lucrative.

Highest-Paying Blockchain Jobs for PhD Grads

Best Blockchain Jobs with a Doctorate

The best blockchain jobs with a doctorate are jobs that have a very lucrative salary and working benefits. They are likely to be in high demand for several years and have numerous open positions presently. These jobs make full use of the doctorate qualification without leaving employees feeling overqualified.

Blockchain researchers examine current blockchain technologies and infrastructure to identify key areas for improvement. They research these areas to develop better blockchain technology. Blockchain researchers are not limited to working in university blockchain research centers. Corporate organizations like Google and IBM also employ blockchain researchers.

• Salary with a Blockchain PhD: $131,490
• Job Outlook: 22% job growth from 2020 to 2030
• Number of Jobs: 33,000
• Highest-Paying States: Oregon, Arizona, Texas

A blockchain engineer designs, implements, deploys, and maintains blockchain-based networks or applications. As a blockchain developer or engineer, you will maintain battle-designed security infrastructure for blockchains and ensure frequent security upgrades to the infrastructure.

• Salary with a Blockchain PhD: $110,140
• Number of Jobs: 1,847,900
• Highest-Paying States: California, Washington, Maryland

As a software engineer specializing in blockchain, you will develop smart contracts and secure protocols for blockchain infrastructure. You will also apply your programming skills to create software such as privacy protocol for Web3 apps.

• Highest-Paying States: California, New York, Washington

Cryptographers develop fool-proof encryption systems for data networks. Their most important task is to prevent unauthorized decryption of secure data. They employ various techniques to perform this task such as lattice-based cryptography and post-quantum cryptography.

• Salary with a Blockchain PhD: $102,600
• Job Outlook: 33% job growth from 2020 to 2030
• Number of Jobs: 47,100
• Highest-Paying States: California, New York, Maryland

This job is arguably the best suited for blockchain PhD holders. A postsecondary teacher applies all the knowledge gained during their PhD program to teaching a new set of blockchain students. Depending on the institution, this job may be described using other terms like a lecturer, instructor, teaching assistant, or professor.

• Salary with a Blockchain PhD: $79,640
• Job Outlook: 12% job growth from 2020 to 2030
• Number of Jobs: 1,276,900
• Highest-Paying States: California, Oregon, Massachusettes

Is a PhD in Blockchain Worth It?

Yes, a PhD in Blockchain is worth it. Blockchain is not just the future of the Internet, it is the present and there is plenty of room for the development of this technology. This means that there are ample opportunities for you to contribute to this field. It also indicates that there are lucrative jobs available to you.

If you have decided to pursue a blockchain PhD, this article should guide you in choosing the best university for your studies. Moreover, the job opportunities and attractive salaries shared above should help sway you if you are undecided.

Additional Reading About Blockchain

[query_class_embed] https://careerkarma.com/blog/how-to-get-a-job-in-blockchain/ https://careerkarma.com/blog/blockchain-terminology/ https://careerkarma.com/blog/how-to-get-a-job-in-blockchain/

PhD in Blockchain FAQ

Blockchain is relevant because it offers a viable alternative to the current method of handling data. Blockchain provides a data network that is accessible, secure, immutable, and decentralized. When combined with cryptography, blockchain forms the foundation for all types of digital currency.

No, you don’t need a computer science background to earn a blockchain PhD. If you already have your master’s and undergraduate degrees in other areas of study, you can still obtain a blockchain PhD. You can conduct your research on blockchain concepts such as business, finance, law, and sociology.

No, blockchain is not the same as cryptocurrency, but rather is the technology behind cryptocurrency. Blockchain was specifically invented to power the first and largest cryptocurrency, Bitcoin. However, it has since evolved beyond that application and can operate anywhere a secure, decentralized database is needed.

Yes, you can get a blockchain job without a PhD in Blockchain. The majority of blockchain jobs do not require a PhD. Several of them do not even require any academic qualifications. Nonetheless, you need to demonstrate your expertise in blockchain and its related fields. You can do so by obtaining a certification from some of the best blockchain bootcamps available.

About us: Career Karma is a platform designed to help job seekers find, research, and connect with job training programs to advance their careers. Learn about the CK publication .

What's Next?

Get matched with top bootcamps

Ask a question to our community, take our careers quiz.

Leave a Reply Cancel reply

Your email address will not be published. Required fields are marked *

The Stanford Center for Blockchain Research

The Center for Blockchain Research (CBR) is a focused research effort on crypto-currencies and blockchain technologies. The center brings together engineering, law, and economics faculty, as well as post-docs, students, and visitors, to work on technical challenges in the field. The center's primary mission is to support the thriving ecosystem by developing new technologies needed to advance the field. Beyond its research mission, the center runs an extensive education and outreach program, including on-campus courses, MOOCs, workshops, and conferences for the general blockchain community.

The 6th Stanford Blockchain Conference (SBC) will take place on Aug. 28-30, 2023.

New Research

• Collaborative ZK proofs. Learn more ...
• Ebb and flow protocols. Learn more ...
• Learn more about the center's research ...

Blockchain Seminar

A monthly research seminar on blockchain topics. The schedule is available online. Please join our mailing list, on the seminar home page, to receive talk announcements.

Dan Boneh    (co-director)

Clark Barrett

Joe Grundfest

Laurie Hodrick

David Mazières    (co-director)

John Mitchell

Andrew Hall

Education and Outreach

• CS251 : Cryptocurrencies and blockchain technologies. The course covers decentralized applications, consensus protocols, cryptography, and security used in blockchain systems. The course is intended for advanced undergraduate Computer Science students as well as graduate students.
• CS255 : Cryptography. The course is an undergraduate introduction to cryptography and its correct use in real world systems. The course is intended for advanced undergraduates and graduate students.
• EE374 : Scaling blockchains. The course explains how to design blockchains that are decentralized and secure, and at the same time have scalable performance.
• MOOC : Free online cryptography course open to the public. The course provides an overview of cryptography and its correct use in real world systems. The course is self contained.
• Textbook : Free online graduate textbook on applied cryptography. The textbook covers all things cryptographic.

Outreach Activities

The stanford blockchain conference.

Following the success of the previous Stanford blockchain conferences in 2022 , 2020 , 2019 , 2018 , and 2017 , the next conference will be held on Aug. 28-30 2023, at Stanford University.

The Stanford DAO Symposium

A three day online event (May 2-4, 2022) exploring all aspects of DAOs: building a DAO, growing the community, DAO governance, and much more.

A monthly seminar on the latest projects and blockchain research. The seminar is open to the public.

The Stanford Journal of Blockchain Law and Policy

A journal for articles on policy and legal issues about blockchains.

The Real-World Cryptography conference

RWC 2019 will take place on Jan. 9-11, 2019. The conference covers new developments in real-world applications of cryptography.

The Stanford Blockchain Club

The Blockchain Group at the Stanford Law School

The center's research mission is focused on technical aspects of cryptocurrencies and blockchains. We work on research topics that support the thriving ecosystem of projects.

Check out the center's research page .

The center is supported by the leading projects and funds in the space.

Ethereum Foundation

Protocol Labs

Interchain Foundation

Best Universities for Blockchain and Cryptography in the World

Updated: February 29, 2024

• Art & Design
• Computer Science
• Engineering
• Environmental Science
• Liberal Arts & Social Sciences
• Mathematics

Below is a list of best universities in the World ranked based on their research performance in Blockchain and Cryptography. A graph of 18.6M citations received by 1.19M academic papers made by 2,372 universities in the World was used to calculate publications' ratings, which then were adjusted for release dates and added to final scores.

We don't distinguish between undergraduate and graduate programs nor do we adjust for current majors offered. You can find information about granted degrees on a university page but always double-check with the university website.

1. University of California - Berkeley

For Blockchain and Cryptography

2. Stanford University

3. Carnegie Mellon University

4. University of Illinois at Urbana - Champaign

5. Massachusetts Institute of Technology

6. Georgia Institute of Technology

7. Tsinghua University

8. Beijing University of Posts and Telecommunications

9. University of California - Los Angeles

10. Cornell University

11. University of Texas at Austin

12. University of Maryland - College Park

13. University of Southern California

14. University of Waterloo

15. Princeton University

16. Federal Institute of Technology Lausanne

17. University of California-San Diego

18. Shanghai Jiao Tong University

19. University of Michigan - Ann Arbor

20. Swiss Federal Institute of Technology Zurich

21. Xidian University

22. University of Hong Kong

23. Nanyang Technological University

24. National University of Singapore

25. Technion - Israel Institute of Technology

26. University of Toronto

27. Catholic University of Leuven

28. Purdue University

29. Columbia University

30. University of Electronic Science and Technology of China

31. Ohio State University

32. University of Cambridge

33. University of Wisconsin - Madison

34. Weizmann Institute of Science

35. Huazhong University of Science and Technology

36. University of Washington - Seattle

37. University of Massachusetts - Amherst

38. University of California - Irvine

39. Technical University of Catalonia

40. Aarhus University

41. University of California - Santa Barbara

42. Eindhoven University of Technology

43. National University of Defense Technology

44. Beihang University

45. Hong Kong University of Science and Technology

46. Virginia Polytechnic Institute and State University

47. North Carolina State University at Raleigh

48. Pennsylvania State University

49. KTH Royal Institute of Technology

50. Imperial College London

51. Technical University of Munich

52. University of California - Davis

53. Darmstadt University of Technology

54. Polytechnic University of Milan

55. University of Melbourne

56. University of Science and Technology of China

57. Harbin Institute of Technology

58. Chinese University of Hong Kong

59. Rice University

60. City University of Hong Kong

61. New York University

62. Rutgers University - New Brunswick

63. Peking University

64. Texas A&M University - College Station

65. National Chiao Tung University

66. University of Minnesota - Twin Cities

67. University of Illinois at Chicago

68. University of Bologna

69. Northeastern University, China

70. University College London

71. Delft University of Technology

72. University of Virginia

73. University of Oxford

74. Vienna University of Technology

75. Zhejiang University

76. California Institute of Technology

77. Arizona State University - Tempe

78. Technical University of Berlin

80. Washington University in St Louis

81. University of Florida

82. Carleton University

83. Tel Aviv University

84. Seoul National University

85. University of Edinburgh

86. Southeast University

87. University of Pisa

88. Wuhan University

89. University of Pennsylvania

90. University of Ottawa

91. Iowa State University

92. University of Tokyo

93. National Taiwan University

94. Duke University

95. Ruhr University Bochum

96. University of British Columbia

97. Dalian University of Technology

98. Polytechnic University of Turin

99. Sapienza University of Rome

100. University of New South Wales

Computer Science subfields in the World

International School of Advanced Studies

University of camerino, phd in blockchain and distributed ledger technology.

An innovative way to tackle the complexity of Blockchain and Distributed Ledger Technology and their applications in the era of the “twin technologies”.

Educate and train a new generation of researchers, professionals and innovators on “Blockchain and Distributed Ledger Technology” who can provide proper answers to the scientific and innovation emerging challenges from the private sector and public administration.

To establish a network of prestigious Italian Universities to support interdisciplinary and multidisciplinary study programs on Blockchain and Distributed Ledger Technology and to create and to valorise a community of young researchers, professionals and innovators with a solid ground, multidisciplinary and technological sound knowledge in the emerging areas of Blockchain and Distributed Ledger Technology that are supposed to drive our social and industrial innovation.

Who should apply

Doctoral candidates interested to gain competences in the broad field of Blockchain and Distributed Ledger Technology and motivated to conduct their research in a highly stimulating inter- and multi-disciplinary environment. 

For more information please contact   [email protected]

Headbook/Vademecum for UNICAM PhD students

International Dimension

How to be an Open Scientist

• Publications
• Research projects

Scholarships

We offer scholarships to high-potential, motivated and committed researchers from a variety of academic backgrounds. Whether you are a Postdoc, a PhD student or a Masters student, discover the impact you could make with a scholarship at the Blockchain Research Lab.

We are looking forward to your application!

Scholarship Vacancies

No vacancies at the moment.

Further information

In addition to the documents and information listed in §2(5) of the Funding Guideline, any application that is to be considered must contain the following documents:

• a CV (academic) in tabular form;
• a single-page motivation letter;
• any graduation certificates obtained so far;
• a statement (including information about the institution, the duration as well as the amount of the scholarship and the topic), regarding any scholarships already received from other institutions;
• the applicant’s assurance that any changes to his or her situation that are relevant to the awarding or disbursement to the scholarship will be communicated immediately;
• the certificate of enrolment if the applicant is currently studying.

The application documents must be submitted in English.

Please also note our  data protection information for applicants .

When applying by email, please make sure that the file size of your application does not exceed 3 MB. Please send us your application in PDF format only.

You have all your records together? Then we look forward to receiving your written application to

Blockchain Research Lab gGmbH Personalabteilung Weidestraße 120b 22083 Hamburg

or via Mail to:  [email protected]

Funding guideline

In our funding guideline, you’ll find all important information relating to your application as well as answers to any questions you may have. Make sure to carefully read them before applying.

Find the answers to the most important questions relating to scholarships.

What are the aims of the scholarship?

The Blockchain Research Lab grants scholarships to promote scientific projects on blockchain technology. The scholarships are intended to further the intellectual potential of gifted and highly motivated (junior) researchers for the scientific, economic and technological further development in the interest of society. The aim is to further the scientific discourse about the technology and, in doing so, to either improve the general understanding of blockchain, to analyse the expected socio-economic and societal change induced by the technology, or to identify and work out promising opportunities for its application.

The scholarship holders will receive financial and personal support to enable them to engage in substantive research. Furthermore, the Blockchain Research Lab strongly encourages the scholarship holders to publish the insights and results gained from their research so as to make them accessible to the general public.

What is the application procedure?

Applications must be addressed in writing to the Blockchain Research Lab. Applicants may either respond to a call for applications or apply on their own initiative. For further information, please see the funding guidelines.

Who can apply?

The Blockchain Research Lab  awards scholarships to Postdocs, PhD students and students who study for a Master’s degree.

The Blockchain Research Lab funds high-potential, motivated and committed (junior) scientists domestically and abroad who are interested in doing research on the challenges and opportunities of blockchain technology and its consequences for society at large.

The scholarship can only be granted upon application, which is open to anyone aged 18 or above. Further criteria are set out in the funding guidelines and in the call for applications, if applicable.

What is the selection process?

The Blockchain Research Lab evaluates all applications received in relation to the selection criteria and the formal requirements. Applications that fail to meet the formal requirements will not be considered. The Blockchain Research Lab decides on the basis of the application material received which applicants to invite for a personal interview. A final decision on granting the scholarship will be taken when all interviews have been concluded.

What documents to include with the application?

Please see the funding guideline or the call for applications, if applicable.

What is the funding period?

The scholarships are granted for a maximum of two years. The funding period is determined individually for each research project. Please see the funding guideline for further details.

What is the amount of funding?

The Blockchain Research Lab awards scholarships to Postdocs, PhD students and students who study for a Master’s degree. Postdocs and PhD students are normally awarded full-time scholarships; part-time arrangements can be made in individual justified cases.

The monthly amount of a full scholarship is €2,000 for a Postdoc and €1,800 for a PhD student. The amount of a part-time scholarship is agreed proportionally.

The scholarship for students in a Master’s programme amounts to €400 per month. The maximum funding period equals the standard period of study for that particular Master’s programme.

For further details, please see the funding guideline.

Does the scholarship affect my eligibility for public student grants (BAföG)?

The Blockchain Research Lab cannot and will not evaluate the circumstances under which successful applicants can also receive public student grants in Germany (BAföG). For information on BAföG, please see the website of the Federal Ministry of Education and Research.

Is my personal data protected during the application process?

All persons within the Blockchain Research Lab who are involved in processing the applicants’ personal data are expressly obliged to ensure data protection, to preserve any business secrets and to comply by the requirements of the General Data Protection Regulation.

See our data privacy policy for applicants.

We have 23 blockchain PhD Projects, Programmes & Scholarships in the UK

All disciplines

United Kingdom

Institution

All Institutions

All PhD Types

All Funding

blockchain PhD Projects, Programmes & Scholarships in the UK

Exploring the potential of blockchain and artificial intelligence for business transformation in logistics, phd research project.

PhD Research Projects are advertised opportunities to examine a pre-defined topic or answer a stated research question. Some projects may also provide scope for you to propose your own ideas and approaches.

Self-Funded PhD Students Only

This project does not have funding attached. You will need to have your own means of paying fees and living costs and / or seek separate funding from student finance, charities or trusts.

UAV-assisted Distributed Blockchain Technology to Secure the IoTs from DDoS

Development, analysis, and ai-augmentation of steganographic blockchain protocols in conjunction with secure multi-party computation for enhanced privacy and security, blockchain technology and smart contracts for the security of internet of things and wireless communications, cyber security, artificial intelligence, machine learning and blockchain technology: mitigating cyber attacks and detecting malicious activities in network traffic, secure and trustable cyber-physical systems for critical infrastructures using generative ai and digital twins, funded phd project (uk students only).

This research project has funding attached. It is only available to UK citizens or those who have been resident in the UK for a period of 3 years or more. Some projects, which are funded by charities or by the universities themselves may have more stringent restrictions.

Securing AI-Enhanced Health Data Management Systems Against Adversarial Attacks Over 6G Networks

Generative ai for the next generation of manufacturing automation systems phd, future finance with artificial intelligence, 1 year: mres project: investigating the role of machine learning algorithms in the valuation of real estate tokenised assets, zk-cloud forensics: privacy-aware and tamper-proof cloud forensics using a public key trust infrastructure, machine learning algorithms for improving predictive maintenance in industrial automation systems, supply chain digitalisation: building a sustainable supply chain, phd projects in computer science (sponsored/self-funded).

The PhD opportunities on this programme do not have funding attached. You will need to have your own means of paying fees and living costs and / or seek separate funding from student finance, charities or trusts.

Computing PhD Programme

PhD Research Programmes describe the opportunities for postgraduate research within a University department. You may often be asked to submit your own research project proposal as part of your application, although predefined research projects may also be available.

User-Centric Privacy-by-Design AI-based Adaptive Access Control in a HealthCare Robot for the Elderly

FindAPhD. Copyright 2005-2024 All rights reserved.

Unknown    ( change )

Have you got time to answer some quick questions about PhD study?

Select your nearest city

You haven’t completed your profile yet. To get the most out of FindAPhD, finish your profile and receive these benefits:

• Monthly chance to win one of ten £10 Amazon vouchers ; winners will be notified every month.*
• The latest PhD projects delivered straight to your inbox
• Access to our £6,000 scholarship competition
• Weekly newsletter with funding opportunities, research proposal tips and much more
• Early access to our physical and virtual postgraduate study fairs

Or begin browsing FindAPhD.com

or begin browsing FindAPhD.com

*Offer only available for the duration of your active subscription, and subject to change. You MUST claim your prize within 72 hours, if not we will redraw.

Create your account

Looking to list your PhD opportunities? Log in here .

Filtering Results

Welcome to Blockchain Research

A diverse group of Waterloo researchers are working on a range of Blockchain academic and industry-driven research projects in a means to further the technical development and innovation of the endless applications of Blockchain.

Current research projects include: consensus protocols, cryptography and security, distributed systems, data mining and machine learning, privacy, scalability and resiliency, smart contracts, blockchains for social good, testing and verification, and applications of blockchain in serverless cloud computing.

The University of Waterloo has been designated  Research University of the Year  among Canadian comprehensive universities by Research Infosource Inc. for the twelfth consecutive year. Researchers in the Faculty of Engineering are focused on life-changing research with global impact.

PhD in Financial Technology (FinTech)

Drive Innovation at the Intersection of Finance and Technology

The future of finance is here and it’s unfolding at an unprecedented pace. In an era marked by rapid technological advancements, the finance industry is undergoing a transformative shift, necessitating a new breed of professionals. Our program is dedicated to cultivating leaders who will pioneer the next wave of innovation in the financial sector.

Value Proposition Description

Why FinTech?  

The fusion of finance and technology, known as FinTech, represents one of the fastest-growing industry sectors globally. With a market capitalization exceeding $550 billion and more than 272 fintech unicorns, the potential for groundbreaking work in this field is vast. The rise of digital payments, mobile banking, cryptocurrencies, and beyond has reshaped the landscape of financial services, making FinTech an essential area of study and innovation.  

A Multidisciplinary Approach  

WPI’s FinTech PhD program is uniquely positioned to offer a comprehensive, multidisciplinary education that bridges finance, technology, computer science, and ethics. Leveraging the expertise of our distinguished faculty and the resources of our state-of-the-art FinTech Innovation Hub, students engage in cutting-edge research and practical applications of their studies.  

Curriculum for PhD in Financial Technology (FinTech)  

The FinTech PhD program offers a rigorous curriculum designed to equip students with an in-depth understanding of both the technological and financial aspects of this evolving field. Our program emphasizes:  

Covering blockchain technology, Asset Pricing, Price Theory, Econometrics, Macroeconomics, digital payments, AI, and machine learning, our courses are tailored to meet the demands of the FinTech industry.

By working closely with regional FinTech firms and departments across the university, students gain a well-rounded perspective on the technical, regulatory, and business dimensions of FinTech. The collaboration with Worcester Polytechnic Institute's (WPI) world-renowned faculty presents a unique and invaluable opportunity for scholars to engage in cutting-edge research in the field of finance. WPI's faculty are leaders in their disciplines, known for their innovative approaches and contributions to technology and finance.  

Collaborating with world-renowned faculty at Worcester Polytechnic Institute (WPI) significantly benefits students, especially in refining their research for publication in top finance journals. Working alongside leading academics offers students unparalleled access to advanced methodologies and insights into the finance field. This mentorship helps students navigate the complexities of research and publication, ensuring their work meets the high standards of prestigious journals. Such collaboration not only boosts students' academic profiles but also contributes valuable insights to the finance community.  

The benefits of this scholarly collaboration extend beyond individual achievements, contributing to the broader academic and professional communities by setting new benchmarks in finance research.

Our curriculum incorporates discussions on ethics, data privacy, and financial inclusion to prepare students for the ethical challenges they may face in their careers.

Graduates of our program are poised to make significant contributions to the FinTech sector, whether in academia, industry research, or leading their own innovative startups. Our alumni network spans the globe, with members holding pivotal positions in major financial hubs and pioneering the development of new technologies and business models.

Important Dates

Next Start: August 22, 2024  

Application Deadline: Apply by May 1st

FinTech Education at WPI: An Interdisciplinary Approach

Dean Debora Jackson and Professors Kwamie Dunbar, Joseph Sarkis, and Robert Sarnie of the WPI Business School discuss how the university’s cross-disciplinary experiential learning and collaboration make it the ideal place to study FinTech.

FinTech for Inclusivity, Growth, and the Future

In partnership with Flame University, Boston Blockchain Association (BBA), and the Massachusetts High Technology Council, the WPI Business School and the Future Finance and Economics Association (FFEA) hosted their inaugural conference in October 2023—the first such FFEA event in the United States.

WPI & Flame University FinTech Lab

In partnership with Flame University, WPI’s FinTech Lab recognizes the critical role of adept individuals in driving this transformation. By fostering interdisciplinary collaboration, it cultivates a dynamic environment where experts from finance, technology, data science, and entrepreneurship converge to develop cutting-edge solutions.

Similar Majors

Dr. Dunbar is currently a tenured Associate Professor of Finance at WPI. In addition to his extensive experience in teaching and research, he has a wealth of industry experience working with several fortune 500 companies in various capacities.

Joseph Sarkis is a Professor of Management within Worcester Polytechnic Institute's Business School. He previously served as a faculty member at Clark University and the University of Texas at Arlington. His teaching and research interests are in the fields of environmental sustainability, operations and supply chain management. He is the author or co-author of over 600 publications. His research is widely cited and earned the designation of highly cited researcher for eight years from 2016-2023 from Thomson-Reuters/Clarivate Analytics (Web-of-Science).

Rob joins WPI from Fidelity Investments, where he spent 23 years in the finance industry, holding multiple executive leadership positions including VP of Strategy and Planning, VP Human Resource Systems, and VP Finance, Procurement, and Accounting Systems. Rob also previously held positions in both the public and private sectors for companies in the manufacturing and nonprofit industries.

Take the First Step Today

Prepare to be a research or industry leader in the rapidly growing world of FinTech.

Berkeley Haas Blockchain Initiative (Ripple UBRI)

The Berkeley Haas Blockchain Initiative funds academic research topics conducted by UC Berkeley Faculty members and Students in the following focus areas:

Blockchain and distributed ledger technologies; cryptocurrency and digital payments; cryptography; and related subject areas such as blockchain for economic development and global financial inclusion.  See below for illustrative research topics.

2021-22 Ripple Blockchain Research Funding Awardees 

Faculty awardees.

2020-21 Ripple Blockchain Research Funding Awardees 

Student awardees.

2019-20 Ripple Blockchain Research Funding Awardees 

2018-19 Ripple Blockchain Research Funding Awardees 

Illustrative Research Topics:

Proposals are welcomed on topics that include, but are not limited to:

• Given XRP’s consensus mechanism, what are the most efficient ways to scale the ledger?
•  Are tokens isolated from fiat? Is there an incentive structure for cryptocurrencies that accounts for the fact that tokens aren’t isolated from one another?
• Evaluate the incentives in emerging blockchain networks (proof-of-work, Byzantine fault tolerant (XRP), etc.) on a variety of factors including: network diversity and participation, security, consolidation of decision making, etc.

Business or legal opps/smart contracts

• Blockchain use to verify and protect medical records
• Identity protection and verification, protect against voter fraud, provide immediate verifiable results
• Implications for automating contractual relationships across a value chain

Regulatory issues

• What is the overall regulatory landscape within the digital asset space and what is their impact on local/global perception of these new technologies?
• What are the potential downstream impact (on banking, exchanges, payment companies, etc.) of different regulatory stances of major economies (India, Japan, Brazil, US, etc.)?

Next: Research Proposals

• Law Essay Writing
• MBA Essay Writing
• Graduate Essay Writing
• Admission Essay

Blockchain Research Topics for PhD, Masters, and Undergrad

• June 21, 2022

Whether you’re a PhD student or an undergrad, the blockchain research topics listed here will offer great insights into the blockchain technologies field. For those who have followed the events happening in the banking, investing, or cryptocurrency over the past one decade, the term blockchain could be familiar.

What is Blockchain?

A blockchain is a continuously expanding collection of digital records, known as blocks, which are connected together via encryption. Blockchains are designed to be immutable and resistant to data alteration. Communities, the decentralized Web, token economies, and worldwide peer-to-peer data transfers are all made possible by blockchain.

Blockchain technology is built on top of a number of different technologies.

A huge number of key criteria influence the success of a blockchain ecosystem. Layer 1 DLT systems like Bitcoin and Ethereum have accomplished a lot, but no one blockchain protocol can remove all of the inherent restrictions. For example, increasing throughput without necessarily jeopardizing security is quite challenging.

Layer 1 blockchain protocols that are secure and efficient must either solve important challenges at the protocol level or allow solutions at a higher level.

Blockchain is the record-keeping technology behind the infamous Bitcoin network. Most importantly, blockchain is a type of database. It differs from typical databases in how it stores information.

Blockchains store data in blocks. Those blocks are then chained to each other. Any new incoming data is stored into a fresh block.

Once a single block is filled with data it is chained onto the previous block, which makes the data chained together in chronological order.

Blockchains store different types of information. Today, storing a ledger for transactions seems to be the most common use of blockchains.

In the case of Bitcoin, blockchain helps in creating a decentralized process so that no single individual has control. Instead, all users have a collective control over their activities.

Without wasting time further, let’s dive into the topics about blockchain.

Blockchain research topics

Even though blockchain technology has seen some great progress in recent years, the field is still ripe for investigations. This section contains a list of chosen research topics , as well as information on current issues and latest events.

Research Topics on Bitcoin and other cryptocurrencies

• The unobvious risks of an unregulated global p2p currency
• Changes in people’s attitudes toward cryptocurrencies.
• How social media influences the prices of cryptocurrencies.
• How to Make Bitcoin a Better Currency
• Evaluating the scalability and security of bitcoin.
• Regulatory responses to cryptocurrencies in the global stage.
• Does cryptocurrency have a place in global economic development?
• The disruption, challenges and opportunities of cryptocurrencies.
• Optimal selfish cryptocurrency mining.
• An Empirical Analysis Leading to a Cost of Production Model for Valuing Bitcoin.
• Examination of the standards for identification on blockchain.
• Issues in designing community currencies based on blockchain.
• Empirical analysis of denial-of-service attacks in the cryptocurrency ecosystems.
• Investigating the potential significance of blockchain in improving transparency in electoral processes across developing democracies.
• Limitation of computational power to the implementation of blockchain technologies.
• Exploring inefficiencies associated with blockchain e.g. speed

Internet crime and security issues facing blockchain

Cryptocurrencies may promote crime and the trade of illegal goods.

For instance, the recent rush by users to obtain bitcoins has raised many questions about the cryptocurrency. There is a strong belief that bitcoin will, in the near future, unleash a great economic potential because it provides a borderless peer-to-peer democratic and self-regulating system.

Despite all these benefits identified in the article, the authors note that blockchain may promote a wide range of illegal activities such as the sale of illegal drugs, illegal weapons, assassinations, unlawful gambling, money laundering, and even outright theft.

Illegal use of blockchain scare away potential new users that otherwise would prevent the rapid growth of cyptoccurencies to surpass the traditional payment methods since no users with good intentions would want to associate with a currency that promotes such unlawful activities.

The following 10 blockchain research topics could be helpful while pursuing your PhD studies:

• The effects of bitcoin regulation on the reduction of drug trafficking.
• Anti-money laundering legislations to prevent, detect and prosecute cryptocurrency-driven money laundering.
• The ease of tracing hacked bitcoins.
• The mainstream adoption of blockchain technology in developing countries.
• Bitcoin mining vulnerability in open computer networks.
• Efforts to achieve full decentralization of blockchain networks in the United States.
• Relationship between metadata of transactions and respect for the privacy of blockchain users.
• Evaluation of current incentive mechanisms on- and off-chain.
• The valuation of different crypto-assets.
• Is it possible to achieve crypto-trading: the exchange of one cryptocurrency for another.
• Bitcoin mining acceleration and quantification of blockchain performance.

Topics on Applications of Blockchain in Banking and finance

Banks tend to be more skeptical about forming deals with bitcoin companies. This is one of the obstacles facing the uptake of bitcoin. 

As a result, a hot debate has been triggered whether bitcoin has the potential to become a dominant global currency or it will be wiped out in the next few years.

With the continued growth of the value of bitcoin cryptocurrency, some investors believe that digital currencies will dominate the future. However, bitcoin, a forerunner in becoming a dominant cryptocurrency is faced with several obstacles that must be addressed for it to assert its dominance in the financial world.

Here are a list of 10 blockchain research topics related to banking and finance:

• How has blockchain technology revolutionized banking in Asia?
• Effects of blockchains on the speed of cross-border payments.
• The skepticism of traditional banking institutions about forming partnerships with cryptocurrencies.
• Analysis of IBM’s Food Trust blockchain.
• Potential improvements in speed of banking transactions after integration of blockchain into business operations.
• Settlement and clearance in international stock trading using blockchain.
• Estimation of banking and insurance fee saved through the use of blockchain-based applications.
• The role of blockchain technology in streamlining paperwork and bureaucracy in trade finance.
• The impacts of government sanctions on the adoption of blockchain technologies in their trade finance.
• Tracking the popularity and financial gains associated cryptocurrency scams.

Our expert writer can come up with a new topic and produce a high quality, original paper for you.

• The application of cryptocurrencies in blockchain-based crowdfunding.
• How blockchain can lower the cost of meeting regulatory requirements for syndicated lending.
• Contributions of blockchain to transformation of accounting, bookkeeping and audit.
• Smart contracting . There has been significant development in this field, with the goal of identifying the main needs for smart contracts and establishing templates for their creation. In order to make smart contracts safer and more secure, additional research is needed in this field.

Blockchain research topics in Healthcare

In healthcare, the privacy of patients is important. Some personal information health records must remain the health provider’s secret.

To avoid privacy complaints and potential legal implications, some hospitals can apply blockchain technology to secure millions of health records.

Below are some of the blockchain research topics in healthcare that could be valuable for researchers:

• Secure storage of patient medical records by leveraging blockchain technology.
• The use of blockchain to fight drug counterfeiting in the pharmaceutical industry.
• The contribution of blockchain-timestamped protocols to improving the trustworthiness of medical science.
• The application of blockchain to medicine traceability across an individual country.
• How blockchain technologies can reduce health-related follow-up costs.

Final remarks

Blockchain seems to be the future. Its application in many sectors including banking and healthcare are inevitable.

In any case, researchers have identified an ever-rising tidal wave of blockchain powered technologies in finance that show its ability to disrupt the finance industry.

You still need help with blockchain dissertation topics? Call us or chat with our live agent today. We will be glad to work with you and help you prosper.

Join our happy customers!

Order your paper today and get custom written essay

You are using an outdated browser. Please upgrade to one of the supported browsers listed below to improve your experience and security.

• Microsoft Edge (last 2 versions)
• Mozilla FireFox (last 2 versions)
• Google Chrome, including Android (last 2 versions)
• Apple Safari, including iOS (last 2 versions)

The publication of the pioneering white paper by Satoshi Nakamoto on Bitcoin in October 2008 and the creation of its reference implementation heralded a new era in the development and deployment of blockchain-based applications. In addition, many other innovations in adjacent and related realms have followed in rapid succession ever since, enabling the emergence of imaginative and disruptive ideas and ventures ranging from protocol-based tokens to Decentralized Finance (DeFi) to Central Bank Digital Currency (CBDC).

Given that nascent aspect of these inventive concepts and the startups they have spawned, it may be too early to judge the success, or the lack thereof, of many of them. Nonetheless, there is little doubt about the profound potential effect and future impact of blockchain, cryptocurrencies, and digital tokens on financial services, technology, economics, trade, healthcare, and government, to name a few. In addition, there are many important questions in regard to ramifications in classical economics theories, regulation, monetary policies, role of central banks, economic growth, fiscal policies and tax collection, access to financial products, national sovereignty, cybersecurity, and others that are yet to be addressed.

In light of such dynamics, we have embarked on a number of academic and industry efforts to promote peer-reviewed and leading-edge  research , education (both for students across Columbia University as well as professionals and executives), and development of promising technology ventures. As always, we take a multidisciplinary approach and bring together faculty and practitioners from business, engineering, economics, and law to tackle industry challenges as well as advance research and development in the field, with the hope of making meaningful contributions to the overall ecosystem.

We are also grateful to  Columbia-IBM Center for Blockchain and Data Transparency  as well as  Columbia Data Science Institute  for their multi-year financial and logistical support of the myriad of research and educational projects we have undertaken in the blockchain domain. We are also thankful to our corporate and industry partners who have enabled research and experimentation to address industry needs and concerns as it pertains to the future of financial services.

Write us  to inquire more about how you can be involved as we always have more initiatives and activities that our current resources allow us to undertake - as such, we would enthusiastically welcome collaborators as well as funders so we could continue to expand our efforts in this domain that sit at the intersection of theory and practice (an important objective). And stay tuned as we announce new projects and future research.

External CSS

Accessibility panel, language settings.

• My Account |
• StudentHome |
• TutorHome |
• IntranetHome |
• Contact the OU Contact the OU Contact the OU |
• Accessibility hub Accessibility hub

Postgraduate

• International
• News & media
• Business & apprenticeships
• Contact Contact Contact
• A to Z of courses
• A to Z of subjects
• Course types
• Masters degrees
• Postgraduate diplomas
• Postgraduate certificates
• Microcredentials
• Postgraduate modules
• Postgraduate distance learning
• Postgraduate qualifications
• Postgraduate entry requirements
• How will I study?
• Tutors and assessment
• Support, networking and community
• Disability support

Fees and funding

• Postgraduate loan
• Credit or debit card
• Employer sponsorship
• Mixed payments
• Credit transfer
• OU bursaries
• Grant funding
• Study costs funding
• Carers' Bursary
• Care Experienced Bursary
• Disability financial assistance
• STEMM bursary
• Over 60s bursary
• Creative Writing Scholarship
• Hayes Postgraduate Scholarship
• Disabled Veterans' Scholarships

How to apply

• Research degrees
• Research areas
• Degrees we offer
• Fees and studentships
• Application process
• Being an OU research student
• Student views

Blockchains and decentralised systems

A blockchain is a publicly shared immutable ledger – a distributed append-only log of records with no central authority but which nonetheless cannot be edited. A blockchain is an open, decentralised and trustable system.

Without the need for any central control or mediator, blockchains allow us to rethink applications in a decentralised way, providing a provenance protocol for sharing data across disparate semi-trusting organisations. We explore the potential for this in healthcare, education, scholarly research, Internet-of-Things, self-sovereign identity and data, and social justice, and welcome research ideas in these or any novel areas.

Entry requirements

Minimum 2:1 undergraduate degree (or equivalent). If you are not a UK citizen, you may need to prove your knowledge of English .

Potential research projects

• Blockchains and decentralised data analytics for verified personal data
• Blockchain for education
• Verified personal health records and privacy
• Decentralising scholarship using blockchains
• Blockchains and the digitally-disadvantaged

Current/recent research projects

• Covid Proof
• EU Blockchain Observatory and Forum
• Institute of Coding

Potential supervisors

• Professor John Domingue
• Dr Alexander Mikroyannidis
• Dr Aisling Third

Some of our research students are funded via a Doctoral Training Partnership ; others are self-funded.  For detailed information about fees and funding, visit  Fees and studentships .

To see current funded studentship vacancies across all research areas, see  Current studentships .

• OpenBlockchain group
• The Knowledge Media Institute​

Get in touch

If you have an enquiry specific to this research topic, please contact:

Ms Ortenz Rose (KMi Senior Services Assistant) Email: KMI PHD Enquiries Phone: +44 (0)1908 654774

Please review the application process if you want to apply for this research topic.

The Open University

• Study with us
• Work with us
• Supported distance learning
• Funding your studies
• International students
• Global reputation
• Sustainability
• Apprenticeships
• Develop your workforce
• Contact the OU

Undergraduate

• Arts and Humanities
• Art History
• Business and Management
• Combined Studies
• Computing and IT
• Counselling
• Creative Arts
• Creative Writing
• Criminology
• Early Years
• Electronic Engineering
• Engineering
• Environment
• Film and Media
• Health and Social Care
• Health and Wellbeing
• Health Sciences
• International Studies
• Mathematics
• Mental Health
• Nursing and Healthcare
• Religious Studies
• Social Sciences
• Social Work
• Software Engineering
• Sport and Fitness
• Postgraduate study
• Masters in Social Work (MA)
• Masters in Economics (MSc)
• Masters in Creative Writing (MA)
• Masters in Education (MA/MEd)
• Masters in Engineering (MSc)
• Masters in English Literature (MA)
• Masters in History (MA)
• Masters in International Relations (MA)
• Masters in Finance (MSc)
• Masters in Cyber Security (MSc)
• Masters in Psychology (MSc)
• A to Z of Masters degrees
• OU Accessibility statement
• Conditions of use
• Privacy policy
• Cookie policy
• Manage cookie preferences
• Modern slavery act (pdf 149kb)

Follow us on Social media

• Student Policies and Regulations
• Student Charter
• System Status
• Contact the OU Contact the OU
• Modern Slavery Act (pdf 149kb)

© . . .

Where do you live?

Please tell us where you live so that we can provide you with the most relevant information as you use this website.

If you are at a BFPO address please choose the country or region in which you would ordinarily be resident.

• Minor in Informatics
• Master’s Programs
• PhD Program
• Areas of Focus
• Course List
• Opportunities
• Welcome to iSchool!
• Research Spaces
• Initiatives
• Publications
• Thesis Collection
• Submit News & Events
• Strategic Documentation
• Visiting Professors Program
• Visiting Students Program
• Job Opportunities
• Recruit a Student

Blockchain@UBC

Blockchain@UBC is Canada’s first graduate training pathway on Blockchain and decentralized trust technologies.

The Blockchain graduate pathway is a 12-credit non-degree training program that augments existing master’s and PhD programs at UBC, including the MAS, MLIS, dual MAS/LIS and PhD programs at UBC iSchool.

Our master’s and PhD students interested in this area are able to contribute to scaling Canada’s Blockchain industry while also engaging in some of the world’s most complex socio-technical issues.

Blockchain@UBC highlights

In canada for blockchain education, multidisciplinary program, supported by industry partners from a wide range of sectors, pathway requirements.

UBC iSchool students wishing to pursue the pathway must take the following courses:

• ARST 575N/ARST 559U – Issues and Perspectives on Blockchain Technology , recommended for the summer between Y1 and Y2 of the program of study for most students
• EECE 571B – Foundations in Blockchain and Distributed Ledger Technology , typically taken in WT1 of Y2 or Y3 of the program of study
• EECE 571 C – Blockchain and Distributed Ledger Technology Graduate Pro-Seminar , typically taken in WT1 of Y2 or Y3 of the program of study
• ARST 575M/LIBR 559T – Blockchain for Information Professionals , typically taken in WT2 of Y2 or Y3 of the program of study.

In addition to completing coursework, we expect students to complete a research-based Mitacs industry internship and to prepare a major research paper or thesis based on the research conducted for the internship.

Students should express their interest in pursuing this pathway to Blockchain@UBC’s research director, Dr. Chang Lu. To be considered for participation in the pathway, we encourage students to apply by the end of April for admission the following academic year.

“I first heard of the Blockchain @ UBC program in the iSchool newsletter. Having had no prior understanding of Blockchain beyond knowing it had something to do with Bitcoin, I was interested in knowing more. The program provided me with an interdisciplinary knowledge of Blockchain technology and the countless industries and use cases it can be applied to. Through the course work, the Summer Institute and an internship with the Land Title and Survey Authority of British Columbia, I was able to apply theoretical concepts in the real world. While I currently do not work within the Blockchain space, the transferable skills I gained through the program allowed me to become an information specialist at a technology company a few months prior to graduation. I highly recommend this program to anyone curious about how trustless systems can reshape the way we think of record keeping and is interested in solving challenging problems using an interdisciplinary perspective.”

Hassan Pakir, MLIS Student 2019 Blockchain and DLT cohort 2019

• Schools & departments

Researchers and PhD students

A list of researchers and PhD students involved with the Blockchain Technology Lab.

This article was published on 2024-03-18

Application Process

Applying to a Ph.D. program can be a complicated and daunting task, and we strive to make applying as straightforward as possible.

HOW TO APPLY

For all applicants, it involves a multi-step process that involves admission to both The University of Texas Graduate School and the Texas McCombs Doctoral Program.

For further detailed information on The University of Texas Graduate School application process, please refer to the Graduate Admission website .

The University of Texas Graduate School

• Visit here and complete the appropriate online application
• Pay the Application Fee (U.S. $65/ International $90). U.S. applicants who meet select criteria may qualify for a fee waiver. To see if you may be eligible for a fee waiver, please complete the Qualtrics Survey .
• Submit your transcripts
• Submit your GRE/GMAT test scores.  
• Submit your TOEFL ( International students only )
• Request and submit Three Letters of Recommendation

Texas McCombs Doctoral Program

• Log into; My Status
• Submit a Statement of Purpose - Statement of goals and objectives (generally about two pages in length) highlighting your particular interests in our Ph.D. program, your relevant credentials related to those interests, and your reasons for wanting to do graduate work at the University of Texas
• Submit your current resume
• Submit a supplemental Department Application Form, if required - IROM and Marketing
• Monitor your status at  MyStatus

Application Checklist

• Submitted Online Application
• Application Fee
• Uploaded official transcripts
• GMAT or GRE scores
• TOEFL Score (Internation Students only)
• Three letters of recommendation
• McCombs Doctoral Program
• Statement of Purpose
• Current Resume or CV
• Department Application (if required)
• Applications must be submitted online
• Applications are accepted for admission to the fall semester only. There is no spring semester option available
• The program is full-time in Austin, TX. There is no part-time option
• There are no distance or online options available
• You may not request an interview. A representative will contact those who are being considered for admission to schedule an interview

ARE YOU READY TO CHANGE THE WORLD?

The Texas McCombs Doctoral Program is seeking individuals who are interested in transforming the global marketplace. Are you one of these future thought leaders?

• For Graduates
• For Organisations

For finding & filling a PhD position

• Browse by…
• PhD Project
• PhD Program
• PhD Various
• Self-Funded
• Less than €10'000
• €10'000 - €20'000
• €20'000 - €30'000
• €30'000 - €40'000
• €40'000 - €50'000
• €50'000 and above
• Arts & Humanities
• Behavioural & Social Sciences
• Business & Finance
• Chemical Sciences
• Engineering
• Geosciences
• Law & Governance
• Mathematical & Physical Sciences
• Medical & Biological Sciences
• mathematics
• bioinformatics
• biochemistry
• medical image analysis
• life sciences
• cell biology
• nanotechnology
• quantum physics
• biotechnology
• condensed matter
• neuroscience
• decision making
• agriculture
• nanoscience
• artificial intelligence
• femtosecond
• spectroscopy
• applied mathematics
• computer science
• image processing
• computational physics
• political science
• biodiversity
• molecular biology
• microbiology
• natural sciences
• biostatistics
• systems biology
• developmental biology
• evolutionary biology
• computer vision
• pattern recognition
• electrophysiology
• mechanical engineering
• materials science
• workplace safety
• chemical engineering
• animal science
• community ecology
• civil engineering
• nanoparticles
• material science
• programming
• remote sensing
• geosciences
• analytical chemistry
• mass spectrometry
• bio-physics
• structural biology
• population genomics
• lithium-ion battery
• engineering
• microfluidics
• theoretical computer science
• marie curie
• solar cells
• computational biology
• neuroinflammation
• genotype-phenotype associations
• urbanization
• optimization
• cellular biology
• molecular dynamics
• international relations
• behavioural ecology
• in x-ray microscopy
• bioengineering
• environment
• electrochemistry
• software engineering
• selection signatures
• electrical engineering
• hydrogeology
• qtl mapping
• organizational management
• crisis management
• environmental science
• programming languages
• industrial economics
• materials chemistry
• optical fiber
• technical university of denmark
• molecular modeling
• computational chemistry
• scholarship
• simulations
• calorimetry
• cardiovascular
• cognitive function
• social media
• social network analysis
• computer engineering
• biomedical engineering
• electronics
• computational neuroscience
• visual search
• human visual perception
• eye-tracking
• multi-scale
• computational methods
• computational material science
• decision sciences
• technology management
• decision support systems
• electron holography
• field emission
• computer simulations
• aarhus university
• denmark phd
• agroecology
• plant science
• soil science
• food science
• horticulture
• science studies
• molecular medicine
• science education
• epigenetics
• dna methylation
• psychostimulants
• evolutionary genomics
• university of denmark
• geogenitics
• mechanical engineering materials science
• technical univrsity of denmark
• cryptocurrency
• sustainable development
• synthetic microenvironments
• bioengineering of the ecm
• cell migration and invasion
• cancer metastasis
• pancreatic cancer
• eap (electroactive polymers)
• energy efficiency
• building science
• geothermal energy
• thermal response test
• conductivity
• heat exchange
• coastal science
• lattice boltzmann
• surface chemistry
• phd position
• stochastic gene expression
• gene regulation
• bayesian statistics
• genetic incompatibility
• selfish dna
• infertility
• sexual selection
• mating behaviour
• comparative analysis
• sexual development
• chicken brain
• gene expression techniques
• information
• virtual reality
• self-organization
• automated tracking
• machine learning
• inverse methodologies
• organismal biology
• neurobiology
• single cell
• organic synthesis
• physical chemistry
• photochemistry
• solid state physics
• signal processing
• blood-brain barrier
• formal methods
• temporal logic
• distributed systems
• parameterized model checking
• 18'000$cad/year
• condensed matter physics
• crystal growth
• low temperature physics
• thermodynamic and transport properties
• electronic band structure of solids
• amélioration de processus
• collaboration interentreprises
• modélisation
• optimisation
• outil d’aide à la décision
• cas d’études
• self-healing coatings
• localized electrochemistry
• corrosion protection
• nucleation and growth
• crystallography
• structural dynamics
• synchrotron
• x-ray scattering
• time-resolved
• complex fluids
• free electron laser
• lithography
• cross-correlation analysis
• trabecular bone
• computed tomography
• gpu programming
• osteoporosis
• carbon dioxie
• structural colours
• organic or macromolecular chemistry
• electrochemical energy storage
• electrolyte
• artificial life
• ecological modelling
• media psychology
• computer-supported collaboration
• biological rhythms
• molecular evolution
• solidification
• crystallization
• vitrification
• desiccation
• evaporation
• cryopreservation
• computer modeling
• applied linguistics
• translation
• advanced imaging techniques
• particle physics
• higgs boson
• statistical learning
• cms experiment
• data analysis
• political philosophy
• physics or related fields
• service oriented architectures (soa)
• e-infrastructure
• objects with ip
• internet of things
• geospatial systems
• geotechnical
• functional programming
• biodiveristy
• chaos theory
• non linear system
• health informatics
• democratic theory
• strategic action
• development
• pigmentary colours
• phd student
• surface science
• dye sensitiser
• charge transfer
• electrocatalysis
• university of basel
• bioelectric interface; bio-organics
• heterogeneous
• cell signaling
• phd position / solid-state nmr
• bio-inspired nanomaterials
• power systems
• conventional fuels
• plant pathology
• plant biology
• environmental
• lipid metabolism
• experimentation
• neuroimflammation
• bbb tight junctions
• immune cells
• multiple sclerosis
• fluid mechanics ; control ; experiments
• mechanical properties
• terahertz telecommunications wireless communications
• inverse problems
• markov chain monte carlo
• cold regions
• pavement engineering
• heavy vehicles
• new physics
• microbiomes
• drug development
• drug discovery
• secondary metabolite
• synthetic chemistry
• chemical analogue
• methanogens
• non-ribosomal peptide synthetase
• natural product
• global warming
• opportunity
• translational
• phd programme
• international studies
• soft matter physics
• computer architecture
• embedded systems
• parallel computing
• performance modelling
• heterogeneous computing
• chemical ecology
• chemical synthesis
• ion channels
• membrane proteins
• cell-free expression
• integer programming
• high performance computing
• 3 year phd in molecular parasitology
• protein interaction
• bioinorganic chemistry
• macromolecular
• mechanical testing
• molecular basis of microbial response to sound ; qs modulators as anti-infectives
• metabolic disorder
• gut microbiota modulation
• liver and pancreatic inflammation
• insulin resistance
• x-ray diffraction
• material defects
• fusion reactor
• biotechnologies
• analytical chemsitry
• materials sciences
• art conservation
• waterlogged wood
• wet organic archaeological materials
• pay is net pay after taxes and insurances (health
• unemployment
• supersonic ejectors
• refrigeration
• experiments
• compressible multiphase flows
• steam ejectors
• informatics
• information technology
• information systems
• enterprise application architecture
• optical coherence tomography
• photoacoustic imaging
• experimental fluid mechanics
• hemodynamics
• blood flows
• inflammation
• neurological diseases
• computational fluid dynamics and high performance computing
• sexual reproduction
• protein interactions
• bayesian nonparametrics
• variational inference
• linear algebra
• corticosterone
• microevolution
• heritability
• alternative reproductive tactics
• evolutionary stable strategies
• evolutionary genetics
• demographic models
• software architecture
• software design
• continuous deployment
• microservices
• internet auf things
• architectural decision making
• technical debt
• software ecosystems
• approximately € 26
• 000 to € 38
• 000 per annum (depending on location and family status)
• marine debris
• sensor networks
• archaeology
• biotechnology/energy systems
• circular economy
• dairy wastewater
• cultural heritage
• sustainability
• palaeo-ecology
• population dynamics
• network theory
• chemistry/chemical engineering
• materials characterisation
• composites materials
• composites mechanics
• materials modelling
• biology; biochemistry; physics; maths; life sciences; chemistry
• cellular networks
• wireless communications
• content caching
• 5g network architectures
• open-source programming
• network virtualization
• fiber-optic
• optical sensors
• european union
• european integration
• european decision-making processes
• international security
• military affairs
• complex commerce
• cross-border cooperation
• economic financial crisis
• international law
• human rights
• minority rights
• quantum optics
• subsurface transport processes
• biogeochemistry
• mass spectrometry coupled with liquid-chromatography
• cultivation
• bacterial cells
• molecular biology tools
• microbial ecology
• network analyses
• environmental microbiology
• field experiments
• polymer chemistry
• synthetic organic chemistry
• polymerization
• geochemistry
• hydrochemistry
• spectroscopicy
• analytical hydrochemistry
• geo-ecology
• geostatistics
• nitrogen cycle
• molecular approaches
• microbial communities
• environmental samples
• sequence analysis
• population ecology
• genetic sequence
• overlapping genes
• computational linguistics
• soil biology
• 2d &3d imaging
• causal inference
• high-dimensional modelling
• active sensing
• sensory coding
• sensorimotor control
• individual differences
• collective behavior
• communication
• animal movement
• group coordination
• anomaly detection
• autonomous health monitoring systems
• particle-based methods
• computational science
• chinese government scholarship 2018
• energy modelling
• energy system analysis
• open source
• crowd-sourced data
• spatial analysis
• high energy physics
• thz electronics
• 30 hours per week
• multiscale modelling
• energy landscape
• static modes
• ionic liquid crystal
• ionic self-assembly
• multiscale structure/property correlations
• energy storage
• interdisciplinary phd programme
• participatory democracy
• socio-economic development models
• human and minority rights
• transnational criminology
• international security studies
• international politics
• european affairs
• international affairs
• european economic governance
• international organizations
• foreign policy
• military affairs and international politics
• armed conflicts and international security
• international career
• disputed areas
• embargos and sanctions
• food security and international commerce
• financial markets integration
• international economic unbalances
• sub-national entities
• multi-level governance
• european union law
• control engineering
• electronic structure
• solar-terrestrial physics
• space weather
• forecasting
• image recognition
• biochemistry or closely related fields
• coronal mass ejections
• soft matter
• strongly correlated electron systems
• diffraction
• extreme conditions
• astrobiology
• cosmic rays
• radiation physics
• wound healing; biomedical engineering
• medical sciences
• plant sciences
• crowd-sourcing
• geo-sciences
• ecotoxicology
• clinical decision support systems
• quantitative methods
• bio(nano)electronics
• protein self-assembly
• protein engineering; nanosciences
• absorption and photoluminescence spectroscopies
• iv characterizations
• injury prevention
• antibiotics
• drug design
• medical chemistry
• microbiome science
• ionizing radiation
• cybersecurity
• public economic analysis
• financial markets
• renewable energy
• innovation management
• collective behaviour
• animal behaviour
• social insects
• complex systems
• swarm robotics
• self-assembly
• vision science
• macrophages
• endothilial cells blood brain barrier
• physics or closely related fields
• surface integrity
• belt finishing
• verification
• isotope geochemistry
• oceangraphy
• paleoceanography
• continuum mechanics
• medical imaging
• elastography
• chronobiology
• endocrinology
• nutrition & biomedicine
• obesity & diabetes
• brown adipose tissue
• circadian clock
• weight regulation
• energy homeostasis
• conjugated polymers
• electromaterials
• bioelectronics
• tv-l13 (65%)
• sustainable transport
• climate policy
• market potential
• protein structure; membranes; endosomes; autophagy; imflammation
• mathematical modelling
• opinion dynamics
• cognitive biases
• molecular simulation
• doctor of philosophy
• salary is based on the universiyt of gent payemnet sysytem.
• cancer research
• new zealand
• industrial phd
• he current position is a full-time early stage researcher/phd student positions within the eu-funded marie skłodowska-curie innovative training network
• “clarify – cloud artificial intelligence for pathology”
• grant agreement number 860627. clarify is an innovative
• multinational
• multi-sectorial
• and multidisciplinary research and training programme that links two highly differentiated specialities: engineering and medicine
• with a focus on digital pathology.
• mct8 deficiency
• gene therapy
• 000 personal development budget
• juridical sciences
• doctoral research
• marine & carbon lab
• biomechamics
• material design
• computational modelling
• energy materials
• mechatronics
• molecular and cellular parasitology
• computational materials design
• sustainable energy
• disordered materials
• quantum and classical mechanics simulations
• nanomaterials
• multiscale models
• transport properties
• doctoral student
• constraint programming
• visual media processing
• personalisation
• quantum communications
• optical fibers
• experimental biomechanics
• doctorate degree
• doctorate in international studies
• phd in international studies
• scholarship in international studies
• postdoctoral position
• medical doctors; phd
• deep learning
• cytoskeleton
• road safety
• disaster resilience
• information theory
• communication theory
• tissue mechanics
• computational analyses
• microelectronics
• nanoelectronics
• distributed algorithms
• cyber-physical systems
• replication
• distributed and resilient computing
• fault tolerance
• intermittent computing
• proteins; membranes; trafficking; structural biology; bacterial infection
• phd program
• legal sciences
• disruptive innovation theory
• incumbent organizations
• strategic options
• measurement
• innovator’s dilemma
• longitudinal
• bibliometrics
• arabidopsis

4 PhD positions on Blockchain Technology

NOTE: this position listing has expired and may no longer be relevant!

Position Description

Pompeu Fabra University and Nokia Bell Labs announce 4 Marie Skłodowska­-Curie European PhD Positions for the ITN BAnDIT H2020 project. PhD students will be supervised by researchers from UPF and Bell Labs (effectively spending 50% of the time at each institution), and collaborating with both Rovira i Virgili University and Caelum Labs for secondments.

We are looking for highly motivated young researchers with a Master degree (or equivalent) in Computer Science, Engineering, Mathematics, Economics or related disciplines, willing to study and do research at the leading edge of blockchain technologies.

The project is structured around 4 Individual Research Projects (IRPs), one for each Early Stage Researcher (ESR) within 4 main research topics:

– Formal analysis of the blockchain technology – Advanced attacks and defense techniques for blockchain-based applications – Auditing systems for blockchain-based applications – Economic and legal foundations

PhD students will be appointed for 36 months. All the fellowships provide a highly competitive remuneration package (basic, gross salary higher than 3200€) complemented by mobility and family allowances (for eligible candidates).

More information at https://www.upf.edu/web/bandit

How to Apply

• Undergraduate
• Postgraduate

Quick Access

• Find Your Programmes
• Taught Postgraduate

Sept 2025 Entry

1 year (Full-time) 2 years (Part-time)

Students can pursue their studies in full-time or part-time mode. Students enrolled part-time can opt for day classes subject to availability.

The subjects offered will depend on the availability of teaching resources and the number of students registered.

Programme Aims

This programme is designed for professionals proficient in blockchain and related technologies to analyse, design, implement and evaluate Fintech and other related systems, products and services. Key Fintech technologies and applications, as well as other aspects such as security, compliance and regulation, are covered. The programme provides students with the knowledge, support and guidance needed to pursue lifelong learning and development in Fintech and other related disciplines.   

The objectives of the programme are listed below:

To produce graduates with specialised knowledge in blockchain technology, as well as strong intellectual and practical skills and critical thinking skills;

To produce graduates who can think holistically and analytically and apply various key emerging technologies, such as blockchain technology, distributed computing, artificial intelligence, machine learning and data analytics, to solve problems in the financial sector and other related disciplines and develop systems/applications in teams or individually;

To produce graduates with professional ethics, social responsibilities and all-round capabilities who can contribute to the development of Hong Kong and China; and

To produce graduates who can keep abreast of innovative, up-to-date and advanced technologies and who are able to engage in independent lifelong learning.

Characteristics

This programme is the first MSc in Blockchain Technology (MScBT) in Hong Kong.

It emphasises the fundamental and latest technology supporting Fintech infrastructure and applications, especially full-stack blockchain.

It offers a range of subjects on the design, development and security of blockchain-based financial applications, in line with the latest developments in blockchain technology.

It serves as a bridging programme for those with little or no computing experience in academia. The programme is also suitable for computing and computer science graduates who want to deepen their knowledge and professionalism in blockchain and related technologies.

Flexible modes of study are available (full-time or part-time).

Graduates of this programme are expected to have expertise in fundamental theories and techniques and the development of various blockchain and Fintech applications. They will have the necessary knowledge to pursue careers in finance and other fields applying blockchain technology.

Programme Structure

Students must complete 31 credits for MScBT. All subjects carry 3 credits, unless otherwise specified. Elective subjects include Dissertation (9 credits) and Project (6 credits).

In general, each subject takes place once a week in the evening over a 13-week semester. Full-time students are enrolled in 5 subjects per semester, while part-time students choose 2 or 3 subjects. Some subjects may be offered during the summer to provide students with greater flexibility in designing their own study programme. 

Students are required to complete the compulsory 1-credit subject “EEE5T03 Engineering Ethics and Academic Integrity” to satisfy the Academic Integrity and Ethics (AIE) requirement for graduation. No credit fee will be charged for this subject.

The award requirements are summarised in the table below:

Please visit the  COMP website  for more details.

Prof. Luo Xiapu Daniel BSc, MSc(Wuhan), PhD[PolyU(H.K.)], SMIEEE

A Bachelor’s degree in Computing/Computer Science/Engineering, Information Systems, Mathematics or other related disciplines.

Applicants with a Bachelor’s degree in other disciplines with at least 3 years of relevant work experience in IT will also be considered.

If you are not a native speaker of English, and your Bachelor's degree or equivalent qualification is awarded by institutions where the medium of instruction is not English, you are expected to fulfil the University’s minimum English language requirement for admission purpose. Please refer to the " Admission Requirements " section for details.

Tel: (852) 2766 7317 Fax: (852) 2774 0842 Email: [email protected]

For more information, please visit our website .

3 for local students 6 for non-local students

HK$12,500 per credit for local and non-local students

Preferred but not required

Copies of transcripts, degree certificates and other relevant certificates are required

• PolyU Main Site
• Academic Registry (AR)
• Global Engagement Office (GEO)
• Graduate School (GS)
• Office of Undergraduate Studies (OUS)
• Student Affairs Office (SAO)
• Hong Kong Community College (HKCC)
• School of Professional Education and Executive Development (SPEED)
• School Nominations Direct Admission Scheme (SNDAS)