Shengzhou Huang | Computational Lithography | Research Excellence Award

Published on by Global Academic Awards

Prof. Shengzhou Huang | Computational Lithography | Research Excellence Award

Anhui Polytechnic University | China

Prof. Shengzhou Huang is an Associate Professor at Anhui Polytechnic University with expertise in intelligent manufacturing, micro-nano optical processing, digital lithography, and advanced 3D printing technologies. His research centers on maskless digital lithography, micro-optical component fabrication, precision optical forming, and optimization algorithms for high-fidelity patterning. He has published over 30 peer-reviewed papers, including 20 SCI-indexed articles in leading journals such as Optics Express, Optics and Laser Technology, and Journal of Vacuum Science & Technology B. With 205 citations, an h-index of 7, leadership of numerous competitive research projects, and more than 20 invention patents, his profile reflects strong innovation capacity and sustained research excellence.

Citation Metrics (Scopus)

220

180

140

100

60

20

0

Citations 205

Documents 29

h-index 7

Citations
Documents
h-index


View Scopus Profile

Featured Publications

Yaping Wu | Semiconductor Materials | Best Researcher Award

Published on by Global Academic Awards

Prof. Dr. Yaping Wu | Semiconductor Materials | Best Researcher Award

Xiamen University | China

Prof. Dr. Yaping Wu, Director of the Ministry of Education Engineering Research Center for MicroNano Optoelectronic Materials and Devices at Xiamen University, is a leading figure in spintronics, quantum photonics, and two-dimensional materials. He earned his Ph.D. in Microelectronics and Solid-State Electronics from Xiamen University, with doctoral training at the University of Texas at Austin, and has advanced to Full Professor. With over 120 SCI publications, 4 authored books, 23 patents, and 26 research projects including ongoing work on chiral micro-LEDs and spin injection devices, his contributions bridge fundamental physics with practical applications. Prof. Dr. Yaping Wu has pioneered strong-field-assisted molecular beam epitaxy, realizing stable magnetic meron lattices and wafer-scale chiral light-emitting devices. His work enables monolithic integration of spin light sources with spin-photonic logic elements, advancing quantum photonic circuits and high-performance spin-optoelectronic systems. With 3,994 citations, 127 documents, and an h-index of 23, his editorial roles, global collaborations, and professional memberships underscore his international research leadership and influence in next-generation information processing technologies.

Profile: Scopus

Featured Publications

Wu, Y., et al. (2025). Giant and anisotropic spin relaxation time in van der Waals GeSe with gate-tunability. Advanced Materials.

Wu, Y., et al. (2025). Large Rashba spin splitting in Janus WTeSe/InN heterostructures through interfacial coupling. Physica Status Solidi Rapid Research Letters.

Wu, Y., et al. (2025). Comprehensive comparison regarding carrier separation characteristics of MoS2/WS2 lateral and vertical heterojunctions. Applied Surface Science, 2025.

Wu, Y., et al. (2025). Orbital coupling and spin textures of Fe/Pd thin films grown on Si substrate with high magnetic fields. Advanced Science.

Wu, Y., et al. (2025). Polarization-field-induced inequivalent exciton dynamics in Janus MoSeS/MoSe2 heterostructures. Nano Letters.

Wu, Y., et al. (2025). Multivariate growth analysis on D019-phase Mn3Ga kagome-based topological antiferromagnets. Journal of Physics: Condensed Matter.

Kuan-Wei Lee | Microelectronics | Best Researcher Award

Published on by Global Academic Awards

Prof. Kuan-Wei Lee | Microelectronics | Best Researcher Award

I-Shou University | Taiwan

Prof. Kuan-Wei Lee, PhD, is a highly accomplished researcher in semiconductor manufacturing, MOS technology, thin films, oxidation technology, and microwave devices. He earned his PhD from National Cheng-Kung University, Taiwan, in 2006, and progressed from assistant professor to full professor at I-Shou University by 2013. Prof. Lee has published 47 SCI-indexed journal papers and 125 conference articles, with 67 documents indexed in Scopus, 369 citations, and an h-index of 11. He has delivered multiple invited talks and keynote speeches internationally and served as guest editor for reputable journals such as Micromachines, Crystals, and Molecules. His research has significantly advanced GaAs-based electronic devices, thin-film applications, and device simulation. Prof. Kuan-Wei Lee’s excellence is recognized through numerous awards, including the Best Scholar Award, Outstanding Electrical Engineer Award, Young Scholar Award, Academic Service Award, and inclusion in Marquis Who’s Who and Top 100 Engineers. His distinguished teaching and global research contributions establish him as a leading figure in electrical and electronic engineering.

Profile: Scopus

Featured Publications

Huang, P. H., Zhu, Y. Q., Chao, L. W., Lin, W. C., Zheng, R. X., Lee, K. W., & Huang, C. J. (2023). Inhibition of brookite phase of TiO₂ via addition of dimethylformamide solvent and annealing. Sensors and Materials, 35(5), 1569–1577.

Huang, P. H., Wu, C. H., Wu, C. K., Zhu, Y. Q., Liu, J., Lee, K. W., & Huang, C. J. (2023). The effects of annealing temperatures and dimethylformamide doses on porous TiO₂ films. Crystals, 13(1), 61.

[Authors not fully listed]. (2022). Remarkable reduction in I_G with an explicit investigation of the leakage conduction mechanisms in a dual surface-modified Al₂O₃/SiO₂ stack layer AlGaN/GaN MOS-HEMT. Materials.

Huang, C. Y., Mazumder, S., Lin, P. C., Lee, K. W., & Wang, Y. H. (2022). Improved electrical characteristics of AlGaN/GaN high-electron-mobility transistor with Al₂O₃/ZrO₂ stacked gate dielectrics. Materials, 15(19), 6895.

[Authors not fully listed]. (2022). The mechanism of PEDOT: PSS films with organic additives. Crystals.

Lai, C. H., Lee, T. Y., Huang, J. S., Lee, K. W., & Wang, Y. H. (2021). The growth of solution-gelation TiO₂ and its application to InAlAs/InGaAs metamorphic high-electron-mobility transistor. Materials Science in Semiconductor Processing, 129, 105804.

Adel Asheri | Semiconductor Devices | Best Researcher Award

Published on by Global Academic Awards

Prof. Adel Asheri | Semiconductor Devices | Best Researcher Award

National Research Centre | Egypt

Prof. Adel Ashery holds a Ph.D. in Physics from the Leningrad Institute of Electronic Engineering (1990), a Science Diploma from Russia (1987), and a B.Sc. from Cairo University (1982). He is currently a full-time Professor and Head of the Department of Solid State Physics at the National Research Center, Cairo, specializing in the preparation and characterization of single-crystal devices and thin films using advanced techniques such as liquid phase epitaxy, electrochemical ionization, photolithography, chemical vapor deposition, sol-gel, and spin coating. Prof. Ashery’s prolific scientific output includes 87 publications with 982 citations and an h-index of 17, reflecting his significant contributions to heterojunctions, dielectric properties, optoelectronic devices, and nanostructured materials. His research spans epitaxially grown GaAs/p-Si diodes, polymer-nanocomposite heterostructures, graphene oxide-based devices, and advanced photodiodes, consistently demonstrating innovation in solid-state physics, device fabrication, and applied electronic materials over three decades of impactful scientific activity.

Profile: Scopus | Orcid

Featured Publications

Ashery, A. (2025). Ag/MWCNTs-PVA composite/n-Si/Ag exhibits a novel combination of high electrical conductance and tunable capacitance in magnitude and sign. ECS Journal of Solid State Science and Technology.

Ashery, A. (2025). Investigation of the optoelectronic properties of a novel polypyrrole-multi-well carbon nanotubes/titanium oxide/aluminum oxide/p-silicon heterojunction. Nanotechnology Reviews.

Ashery, A., Gaballah, A. E. H., Elmoghazy, E., & Kabatas, M. A. B. M. (2024). Dielectric properties of epitaxially grown lattice-mismatched GaAs/p-Si heterojunction diode. iScience.

Ashery, A., Gaballah, A. E. H., & Kabatas, M. A. B. M. (2024). Negative capacitance in Au/CuInGaSe2/SiO2/n-Si/Al Schottky barrier diode devices. Physical Chemistry Chemical Physics.

Ashery, A., Gaballah, A. E. H., & Farag, A. A. M. (2024). Optical characterization of high-quality spin-coated PVA nanostructured films for photo-sensing application. Physica B: Condensed Matter.

Jianyu Pan | Electrical Engineering | Best Researcher Award

Published on by Global Academic Awards

Prof. Jianyu Pan | Electrical Engineering | Best Researcher Award

Prof. Jianyu Pan, Chonqing University, China

Prof. Jianyu Pan is a leading researcher in electrical engineering, specializing in power converters, SiC electric drives, and high-voltage discharge protection. He earned his Ph.D. in Electrical Engineering from The Ohio State University, USA (2019) under Prof. Longya Xu (IEEE Fellow). He also holds an M.S. (2014) and B.S. (2011) from Chongqing University, China. Currently a Professor at Chongqing University, he has secured multi-billion-dollar research funding, published 29 SCI papers, and holds 34 patents. As an IEEE committee member and editor, he contributes significantly to power electronics and energy systems. ⚙️🔋

Publication Profile

Google Scholar

Education 🎓

Prof. Jianyu Pan holds a Ph.D. in Electrical Engineering from The Ohio State University, Columbus, Ohio, U.S.A., where he studied from August 2014 to August 2019 under the guidance of Prof. Longya Xu (IEEE Fellow). Prior to this, he earned his M.S. in Electrical Engineering from Chongqing University, China, completing his studies between September 2011 and June 2014 under Prof. Ju Tang. His academic journey began at the School of Electrical Engineering, Chongqing University, where he obtained his B.S. in Electrical Engineering from September 2007 to June 2011.

Professional Experience 🏅

Prof. Jianyu Pan has an extensive background in research and academia. From October 2019 to October 2022, he completed his post-doctoral research at Chongqing University, China. Since January 2022, he has been serving as a Professor at the State Key Laboratory of Power Transmission Equipment Technology, School of Electrical Engineering, Chongqing University. Previously, from December 2019 to December 2021, he worked as a Lecturer at the same institution. His research experience also includes a tenure as a Research Assistant at the Department of Electricity and Electronics, The Ohio State University, Columbus, U.S.A., from January 2016 to August 2019.

Research Experience

Prof. Jianyu Pan is a distinguished electrical engineer specializing in power electronics, SiC electric drives, and high-voltage energy systems. He serves as a Professor at Chongqing University and has led multiple high-impact research projects, securing billions in funding from organizations like the NSFC, DOE, and Southern Power Grid. His expertise spans power conversion, energy storage, and electrification of transportation systems. With a strong background in SiC-based technologies, he has pioneered innovations in high-efficiency, high-reliability power systems. His contributions are shaping the future of smart grids and sustainable energy solutions. ⚙️⚡🚢✈️

Honors and Awards

Prof. Jianyu Pan has received numerous prestigious honors for his contributions to electrical engineering and power electronics. In 2024, he was recognized as a Chongqing Science and Technology Leader for his pioneering research in high-efficiency power systems. His exceptional work earned him a place in the National Overseas Excellent Youth Program in 2021, highlighting his global impact. In 2020, he was selected for the Chongqing Yingcai Young Top Talents program, reflecting his leadership in innovative research. Additionally, in 2022, he was honored as an Excellent Innovation and Entrepreneurship Mentor for Chongqing University Students, recognizing his dedication to guiding future engineers. 🚀🏆⚡

Research Interest

Prof. Jianyu Pan is a leading researcher in electrical engineering, specializing in power converters, SiC electric drives, and high-voltage discharge protection. His work focuses on high-efficiency, high-power-density power conversion systems, energy generation and storage, and the electrification of ships and aircraft. As a Professor at Chongqing University, he has contributed to cutting-edge research in power electronics. With numerous publications, patents, and major funded projects, he plays a key role in advancing next-generation energy technologies. His expertise drives innovation in sustainable and efficient electrical power systems. ⚙️⚡✈️

Publication Top Notes

1️⃣ Correlation analysis between formation process of SF6 decomposed components and partial discharge qualitiesCited by: 149 (2013) ⚡📄
2️⃣ Decomposition characteristics of SF6 under thermal fault for temperatures below 400°CCited by: 103 (2014) 🔥🔬
3️⃣ 7-kV 1-MVA SiC-based modular multilevel converter prototype for medium-voltage electric machine drivesCited by: 83 (2020) ⚙️🔋
4️⃣ Hardware design of a 1.7 kV SiC MOSFET based MMC for medium voltage motor drivesCited by: 56 (2018) 🖥️⚡
5️⃣ Relationship between decomposition gas ratios and partial discharge energy in GIS, and the influence of residual water and oxygenCited by: 47 (2014) 🏭🧪
6️⃣ Double-vector model predictive control for single-phase five-level actively clamped convertersCited by: 45 (2019) 🚗⚙️
7️⃣ Influence regularity of trace H₂O on SF6 decomposition characteristics under partial discharge of needle-plate electrodeCited by: 43 (2015) 💧⚠️
8️⃣ Computationally efficient model predictive control with fixed switching frequency of five-level ANPC convertersCited by: 41 (2021) 🔄⚡
9️⃣ An optimized model predictive control for three-phase four-level hybrid-clamped convertersCited by: 40 (2019) 🏎️🔋
🔟 Capacitor voltage ripple estimation and optimal sizing of modular multi-level converters for variable-speed drivesCited by: 35 (2020) ⚙️🔄

 

Xu Yuan | Semiconductor display | Best Researcher Award

Published on by Global Academic Awards

Dr. Xu Yuan | Semiconductor display | Best Researcher Award

Dr. Xu Yuan, BOE Technology Group Co., Ltd., China

Based on Dr. Xu Yuan’s qualifications and achievements, here’s an evaluation of his suitability for the Research for Best Researcher Award:

Publication profile

Work Experience

Dr. Xu Yuan is currently a researcher at the Central Research Institute, BOE Technology Group CO. LTD., Beijing, China, since June 2021. His supervisor is Dr. Yanzhao Li. His role involves advancing research in electrocatalysis and material science, reflecting his active engagement in cutting-edge research.

 Education

Dr. Yuan earned his Ph.D. in Inorganic Chemistry from Beijing Normal University, Beijing, China, from October 2016 to June 2021. His advisor was Wenbo Yue. He also holds a B.S. in Chemistry from the University of Science and Technology Beijing, completed in September 2012.

Publication Top Notes

  • “Optimized electrocatalytic performance of PtZn intermetallic nanoparticles for methanol oxidation by designing catalyst support and fine-tuning surface composition”
    Publication: Electrochimica Acta, 2021, 394, 139106 📄
    Cited by: 6 📈
  • “Electrochemically exfoliated graphene as high-performance catalyst support to promote electrocatalytic oxidation of methanol on Pt catalysts”
    Publication: Journal of Central South University, 2020, 27(9), pp. 2515–2529 📄
    Cited by: 10 📈
  • “Fabrication of Pt3Ni catalysts on polypyrrole-modified electrochemically exfoliated graphene with exceptional electrocatalytic performance for methanol and ethanol oxidation”
    Publication: Electrochimica Acta, 2020, 340, 135969 📄
    Cited by: 14 📈
  • “Exceptional anodic performance of Sb-doped SnO2 nanoparticles on electrochemically exfoliated graphene for lithium-ion batteries”
    Publication: Journal of Alloys and Compounds, 2019, 795, pp. 168–176 📄
    Cited by: 18 📈
  • “Exceptional lithium anodic performance of Pd-doped graphene-based SnO2 nanocomposite”
    Publication: Electrochimica Acta, 2017, 225, pp. 322–329 📄
    Cited by: 33 📈


Conclusion

Dr. Xu Yuan’s relevant work experience and educational background, combined with his significant research contributions, make him a suitable candidate for the Research for Best Researcher Award. His ongoing research and expertise align well with the criteria for this recognition.