World Ranking of Top Electronics Scientists in 2022 (1st Edition)

by Imed Bouchrika, Phd

Co-Founder and Chief Data Scientist

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On March 1, 2022, Research.com released the 1st edition of the annual ranking for top scientists in the area of electronics & electrical engineering. This list of leading scholars is designed to offer the academic community more visibility and exposure to the influential research contributions made by those at the forefront of electronics & electrical engineering.

What is more, we hope it will inspire researchers, decision-makers, and entrepreneurs around the world to find out where leading experts are heading. It is a great opportunity for all of us to learn who are the leading experts in different research areas, in different countries, as well as within different universities and research institutions.

NOTE: Due to our efforts to publish rankings for all major scientific disciplines in 2022 we have made a decision to feature a separate ranking for computer science which in previous years had been combined with the ranking for electronics. As a result, this year's edition of the electronics list may show more significant differences for some scientists, and some researchers may have been transferred to the computer science ranking entirely.

For the 2022 edition of the ranking, more than 4800 scientist profiles on Google Scholar and Microsoft Academic Graph have been examined with several indicators and metrics reviewed in order to consider each scientist’s inclusion in the ranking.

The h-index threshold for approving a scholar to be considered was set to 30 if most of their publications were in the field of electronics & electrical engineering. The inclusion criteria for scholars to be considered into the ranking of top scientists are based on the discipline h-index, the proportion of contributions made within the given discipline in addition to the awards and achievements of the scientists.

The key findings for the 1st edition of top electronics & electrical engineering scientists ranking

• Scholars from the United States are dominating the ranking with 466 scientists representing 46.6% of all leading electronics scientists. The other countries with leading positions in the ranking are China (112 scientists or 11.2%), the UK (54 scientists or 5.4%), Canada (51 scientists or 5.1%), Japan (37 scientists or 3.7%), Australia (31 scientists or 3.1%), and Germany (29 scientists or 2.9%).
• Only 4 out of 10 scientists in the top 1% are from the United States, while the other 6 researchers there represent Denmark, Australia, Japan, China, Singapore, and the United Kingdom
• No. 1 position in the ranking is held by Frede Blaabjerg from Aalborg University, Denmark, who has an h-index of 167
• In the 2022 edition of our ranking, Stanford University is the leader, with 26 scientists affiliated with that university included in the ranking.
• 6 out of 10 leading institutions are American universities, while the other four are from Singapore, Switzerland, China, and Belgium.
• Among private companies, the one that features the most of their scientists in the ranking is IBM with 9 researchers listed.
• The highest cited scientist is Martin A. Green from UNSW Sydney with 141,571 citations.
• The average H-index for the top 1% of scientists is 139 against an average of 67 for all 1000 scientists included in the ranking.

The full ranking for the 2022 list of top electronics & electrical engineering scientists can be found here:

TOP ELECTRONICS & ELECTRICAL ENGINEERING SCIENTISTS RANKING

Countries with the highest number of leading electronics & electrical engineering scientists

Scientists from the United States dominate the list with 466 scholars included in 2022 which represents 46.6% of the whole ranking. Among the top 1% of scientists, affiliations are quite diverse, with 4 researchers working for the United States institutions, while the other 6 represent Denmark, Australia, UK, China, Japan, and Singapore.

China ranks second with 112 scientists.

The third spot was taken by the United Kingdom, which currently has 54 ranking scientists.

The other leading countries are Canada with 51 scientists, Japan with 37 scientists, Australia with 31 scientists, and Germany with 29 scholars.

Please note that the country associated with a scientist is based on their affiliated research institution according to MAG, not on their actual nationality.

Institutions with the highest number of leading scientists

In the 2022 edition of our ranking, Stanford University is the leader, with 26 scientists affiliated with that university included in the ranking. Ranking close behind as second is the University of California, Berkeley with 24 scientists, and the third place is occupied by MIT with 24 scholars as well.

6 out of 10 leading institutions are American universities, while the other four are from Singapore, Switzerland, China, and Belgium.

Among the top 1% of leading scientists 4 out of 10 institutions in the top 1% are based in the USA (University of Michigan-Ann Arbor, University of California, Berkeley, the University of Minnesota, and North Carolina State University). The other six are the Aalborg University, Denmark (ranked 1st), the University of Adelaide, Australia (ranked 2nd), the Semiconductor Energy Laboratory in Japan (ranked 5th), Brunel University London (ranked 6th), the Southeast University, China (ranked 8th), and the National University of Singapore (ranked 9th).

Among 20 leading institutions 14 are universities and companies based in the US, the other six are based in Singapore (the National University of Singapore as well as the Nanyang Technological University), Switzerland (École Polytechnique Fédérale de Lausanne), China (City University of Hong Kong), Belgium (KU Leuven), and Canada (University of Toronto).

Among private companies, the one that features the most of their scientists in the ranking is IBM with 9 researchers listed.

Online electronics engineering degree benefits students, faculty

The increasing number of electronics engineering degree programs benefits learners and educators. For example, the “self-serve” learning approach used in online programs allows students to study at their own pace. Also, online delivery has made it possible for educational institutions to offer some of the cheapest online engineering degree programs today, which encourages more students to enroll. According to data from the National Center for Education Statistics, nearly 150,000 bachelor's degrees in engineering and engineering technology were conferred in 2020 alone.

Meanwhile, faculty members experience practical benefits from teaching online. These include flexibility, the capacity to handle many students, and increased interaction with students and other lecturers online (Mbongo et al., 2021). Interdisciplinary collaboration also becomes easier since technology enables faster communication, which can impact the ease of doing research projects. Faculty teaching online computer science degrees, for instance, can discuss course or project collaborations to drive innovation in fields such as research and development, telecommunications, and manufacturing.

Can further education boost career success in electronics & electrical engineering?

Advanced academic qualifications and specialized certifications can serve as critical catalysts for career progression in electronics and electrical engineering. Individuals who pursue further education often gain access to innovative research methodologies, hands-on experience with emerging technologies, and enhanced networking opportunities that align with evolving industry demands. Notably, online platforms offering easy online degrees provide flexible, cost-effective pathways for professionals to acquire cutting-edge skills while balancing professional responsibilities. These educational avenues not only support academic excellence but also enable a smoother transition to research-driven roles and leadership positions within both academia and industry.

What are the current employment trends in electronics & electrical engineering?

The electronics and electrical engineering sector is undergoing rapid transformation amid technological innovation, digitalization, and sustainability initiatives. Global demand is rising in areas such as renewable energy, automation, and telecommunications, resulting in diverse career opportunities and competitive remuneration. Employers increasingly seek professionals with interdisciplinary skills and hands-on experience, prompting a shift toward specialized training programs. For instance, acquiring credentials through an accelerated associates degree online can provide a streamlined pathway to gaining targeted technical competencies that cater to evolving industry needs.

What are the advantages of remote-focused education in electronics & electrical engineering?

Remote-focused education is increasingly recognized for its role in providing flexible learning environments that cater to the evolving needs of professionals in electronics and electrical engineering. By integrating virtual classrooms and asynchronous learning, these programs enable students to balance work obligations with the pursuit of advanced academic qualifications. This flexible approach not only supports continuous skill development but also corresponds to enhanced career resilience in today's competitive job market. For professionals aiming to leverage the benefits of remote study, pursuing the best degree to work from home can be a strategic move to optimize both work and study outcomes.

How can targeted schemes support a seamless career transition in electronics & electrical engineering?

Academic and industrial collaborations are increasingly pivotal in steering seasoned professionals toward new roles within electronics and electrical engineering. Tailored programs that integrate advanced coursework with real-world projects enable individuals to acquire relevant skills quickly, adapt to emerging technologies, and build strategic industry networks. These initiatives foster a balanced development of technical expertise and leadership competencies, facilitating practical transitions into innovative roles and management positions. For structured pathways that align academic rigor with industry demands, explore graduate schemes for career changers.

How do trade schools contribute unique value to electronics & electrical engineering careers?

Trade schools offer an alternative approach to developing technical competencies within the fast-evolving landscape of electronics and electrical engineering. Merging hands-on training with industry-standard methodologies, these programs enable graduates to master practical skills that complement theoretical knowledge. Industry-led curricula and apprenticeships accelerate professional readiness, ensuring a swift transition into technical roles while bolstering specialized expertise. For a detailed overview of career opportunities stemming from vocational education, consult the trade school careers list.

How can specialized postgraduate studies drive innovation and career advancement in electronics & electrical engineering?

Specialized postgraduate programs offer a focused curriculum that combines cutting-edge research with practical industry applications. These programs provide professionals with an accelerated learning pathway that sharpens analytical skills and fosters innovation to address evolving technical challenges. The integration of industry-driven projects helps bridge the gap between academic theory and modern engineering practice, enabling graduates to implement effective solutions from day one. For professionals considering a swift yet comprehensive academic upgrade, exploring a masters programs 1 year plan can be a strategic move to enhance both technical expertise and leadership capabilities.

How can industry-recognized certifications boost career competitiveness in electronics & electrical engineering?

Industry-recognized certifications play a crucial role in bridging the gap between academic knowledge and practical expertise. Validating hands-on skills through focused coursework reinforces professional credibility and demonstrates a commitment to continuous improvement. Completing some of the best certification courses for high paying jobs can enhance technical proficiency, streamline troubleshooting capabilities, and serve as a differentiator in a competitive job market. Such credentials offer tangible benefits by aligning with evolving industry standards and signaling readiness to tackle emerging engineering challenges.

H-index ranking – leaders, averages, and distribution

For Europe, Professor Frede Blaabjerg from Aalborg University in Dermark is ranked the first in the region, but he's also listed no. 1 in the world ranking, with an H-index of 167.

For Oceania, Professor Peng Shi from the University of Adelaide in Australia is on top of the list with a world ranking of 2 and an H-index of 149.

For North America, Professor Stephen R. Forrest, from the University of Michigan-Ann Arbor, US ranks 3rd on our list of leading scientists with a high H-index of 143.

Professor Shunpei Yamazaki from the Semiconductor Energy Laboratory in Japan leads the top list in Asia with an H-index of 135 and a world ranking of 5.

Professor Jose Rodriguez from Andrés Bello University in Chile is the highest-ranking scientist from South America with a world ranking of 98.

Professor Xiaohua Xia who is affiliated with the University of Pretoria, South Africa is the first for Africa with a world ranking of 934.

The average H-index for the top 1% of scientists is 139 against an average of 67 for all 1000 scientists included in the ranking.

The scholar with the lowest index value who made it to the ranking in 2022 has an H-index of 52.

The average number of published articles within the field of electronics for the 1% scientists in the ranking is 1023 against an average of 337 for all 1000 scholars.

The average number of citations for the top 1% of scientists is 77,593 against an average of 20,090 for all 1000 scholars. The highest cited scientist is Martin A. Green from UNSW Sydney with 141,571 citations.

You can learn more about the methodology used to create the ranking here.

About Research.com

All research was coordinated by Imed Bouchrika, Ph.D., a computer scientist with a well-established record of collaboration on a number of international research projects with different partners from the academic community. His role was to make sure all data remained unbiased, accurate, and up-to-date.

Research.com is the number one research portal for science and educational rankings. Our mission is to make it easier for professors, research fellows, and students to progress with their research and find the top experts in a wide range of scientific disciplines. Research.com is also a leading educational platform that helps students find the best colleges, academic opportunities, and career paths.