Zhi Li | Photonics | Best Researcher Award

Dr. Zhi Li | Photonics | Best Researcher Award 

Tyndall national institute | Ireland 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Zhi Li began his academic journey with a Bachelor of Science in Material Science and Engineering from the University of Science and Technology Beijing, China, graduating with first-class honors in 2011. His early academic achievements included a high GPA of 3.6/4.0, ranking 15th out of 220 students. He then pursued a Master of Science in Semiconductors at the Chinese Academy of Sciences, where he focused on the fabrication and investigation of low-dimension GaN-based light-emitting diodes. Dr. Li furthered his education with a Ph.D. in Electronic and Electrical Engineering from the University of Sheffield, where his thesis on MOCVD growth and characterization of high-quality semi-polar AlGaN for ultraviolet emitters laid the foundation for his future research in photonics.

PROFESSIONAL ENDEAVORS

Dr. Li's professional endeavors have been centered on photonics, particularly III-V photonic materials and devices. He is currently a Senior Researcher at the Tyndall National Institute, where he leads the GaN research team within Brian Corbett’s III-V Materials and Devices Group. His roles include being the Principal Investigator in several projects, such as the IPIC EMERGE project and the commercialization project for iSLight. His postdoctoral research at Tyndall involved supervising Ph.D. students and leading technical aspects of commercial projects with companies like CORNING and Rockley Photonics. Dr. Li's expertise in photonics is evidenced by his extensive research on GaN photonics integrated circuits and high-speed micro-LEDs, as well as his work on transfer printing technology for heterogeneous integration of photonics and electronics.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Li has made significant contributions to the field of photonics through his research and project involvement. His work spans from the monolithic integration of RGB micro-LEDs for micro-displays to the development of high-power super-luminescence LEDs. He has been instrumental in advancing high-speed visible light communication with micro-LEDs and developing integrated remote-powered LEDs for medical applications. His research focus includes condition monitoring and failure prevention of synchronous generators, vibration theory and control, and multi-physics field analysis of synchronous generators. Dr. Li's contributions are highlighted by over 30 peer-reviewed journal papers and more than 10 invited talks at conferences.

CITATIONS

  • Citations  548
  • h-index    15
  • i10-index 19

IMPACT AND INFLUENCE

Dr. Li's impact and influence in the field of photonics are underscored by his numerous awards and honors. He is a recipient of the prestigious Pathway Program Award from Science Foundation Ireland and the Emerging Research Leaders Award from the Irish Photonics Integration Centre. His groundbreaking work led to the founding of iSLight, a startup specializing in surface-emitting superluminescence LEDs. Dr. Li's contributions to the academic and commercial sectors have significantly advanced the understanding and application of photonic materials and devices.

ACADEMIC CITATIONS

Dr. Li's research has been widely cited in academic literature, reflecting the relevance and importance of his work in photonics. His involvement in high-profile projects funded by the National Natural Science Foundation of China and other prestigious organizations has established him as a leading figure in the field. His contributions have not only advanced scientific knowledge but also led to practical applications in high-speed communications, AR/VR technologies, and optogenetics.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Li's legacy in the field of photonics is characterized by his pioneering work on III-V photonic materials and devices, particularly his innovative approaches to heterogeneous integration using micro-transfer printing. His future contributions are expected to further enhance the field, focusing on advanced applications of photonics in various industries. His ongoing projects and upcoming research will likely continue to drive advancements in photonic materials and devices, cementing his position as a key contributor to the field.

PHOTONICS 

Dr. Li’s research on photonics involves the study and application of light-emitting diodes, GaN photonics integrated circuits, and high-speed micro-LEDs. His expertise in photonics has led to significant advancements in technologies such as AR/VR, optogenetics, and high-speed communications. The emphasis on photonics reflects his commitment to pushing the boundaries of science and technology through innovative research and development.

NOTABLE PUBLICATION

Svetlana Malinovskaya | Coherent Control | Innovation in Atomic and Molecular Technologies Award

Prof Dr. Svetlana Malinovskaya | Coherent Control | Innovation in Atomic and Molecular Technologies Award 

Stevens Institute of Technology | United States 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Prof. Dr. Svetlana Malinovskaya's academic journey began with a Bachelor of Science (B.Sc.) in Physics from Krasnoyarsk State University in 1983. She furthered her education with a Master of Science (M.Sc.) in Physics from Novosibirsk State University in 1985. Her pursuit of advanced knowledge led her to complete a Doctor of Philosophy (Ph.D.) in Physics and Mathematics at Novosibirsk State University and the Institute of Chemical Kinetics and Combustion, Russian Academy of Sciences, in 1993. Her early education also included a background in music, having attended Novosibirsk Lavrentyev Lyceum and a music school for piano.

PROFESSIONAL ENDEAVORS

Prof. Malinovskaya has held various prestigious positions throughout her career. Currently, she is a Professor in the Department of Physics at Stevens Institute of Technology, Hoboken, NJ, since September 2021. Her previous roles include Associate Professor at the same institution, Adjunct Associate Professor at the University of Michigan, and Research Associate Professor at Stevens Institute of Technology. Her postdoctoral experiences span institutions like the University of Florida, the University of Michigan, and the University of Heidelberg. Notably, she has also served as a Research Scientist at the Institute of Chemical Kinetics and Combustion in Russia.

CONTRIBUTIONS AND RESEARCH FOCUS

Prof. Malinovskaya's research focuses on COHERENT CONTROL, which involves manipulating quantum systems with precision to achieve desired outcomes. Her work in COHERENT CONTROL includes developing advanced techniques such as Quantum-Enhanced FAST CARS for remote detection of chemical and biochemical materials. Her research has significantly advanced the understanding and application of COHERENT CONTROL in fields like remote sensing and quantum optics.

IMPACT AND INFLUENCE

Prof. Malinovskaya's contributions to COHERENT CONTROL have had a substantial impact on both theoretical and practical aspects of quantum mechanics and spectroscopy. Her innovative research in COHERENT CONTROL has influenced the development of new methods for detecting chemical and biological hazards, showcasing her work's relevance to security and environmental monitoring.

ACADEMIC CITATIONS

Prof. Malinovskaya’s research has been widely cited in scientific literature, reflecting her influence in the field of COHERENT CONTROL. Her pioneering work on Quantum-Enhanced FAST CARS and other related topics has been acknowledged and referenced by researchers across various disciplines.

LEGACY AND FUTURE CONTRIBUTIONS

Prof. Malinovskaya's legacy is marked by her significant contributions to the field of COHERENT CONTROL and quantum spectroscopy. Her future work is anticipated to further explore and refine COHERENT CONTROL techniques, continuing to push the boundaries of what is possible in quantum manipulation and detection technologies. Her ongoing research promises to build on her established legacy, advancing both theoretical insights and practical applications in the field.

COHERENT CONTROL 

Prof. Malinovskaya's research prominently features the keywords COHERENT CONTROL, quantum optics, and spectroscopy. Her focus on COHERENT CONTROL techniques is central to her work, highlighting the critical role this concept plays in her research. The integration of these keywords underscores the importance of COHERENT CONTROL in advancing our understanding and application of quantum systems.

NOTABLE PUBLICATION