Hsin Yuan Chen | Engineering | Best Scholar Award

Published on by Phenomenological Research Awards

Prof  Hsin Yuan Chen | Engineering | Best Scholar Award

Professor at Zhejiang University, China.

Prof. Jade H.-Y. Chen is a globally recognized scholar, innovator, and thought leader in artificial intelligence, aerospace, smart healthcare, and digital transformation. With a rich academic and entrepreneurial background, she has bridged the gap between cutting-edge research and impactful real-world applications. Her work fuses disciplines such as AI, robotics, 6G communications, and biomedical informatics, earning her widespread acclaim across academia, industry, and government sectors. Passionate about technology for human-centered development, she has become a symbol of excellence in interdisciplinary research and innovation.

Profile:

Scopus |Google Scholar

Education:

Prof. Chen holds a Ph.D. in Mechanical Engineering from National Cheng Kung University, Taiwan, where she specialized in advanced systems engineering and intelligent technologies. Her academic foundation laid the groundwork for a multi-faceted career spanning smart systems, AI algorithms, and automation. She also pursued advanced research fellowships at institutions like MIT, McGill University, and Washington University, further expanding her technical horizon and global academic influence.

Professional Experience:

She currently serves as Dean, CTO, and Director in various academic and technological institutions across Taiwan and the Asia-Pacific region. Prof. Chen plays a leading role in cross-sectoral innovation—advising AI startups, mentoring young researchers, and collaborating with multinational firms on smart manufacturing and health-tech projects. Her professional influence extends beyond borders, making her a strategic figure in global digital transformation efforts.

Research Experience:

Prof. Chen has spearheaded more than 30 national and international research projects focusing on artificial intelligence, digital twins, smart agriculture, aerospace propulsion, and blockchain-integrated healthcare. She has published over 20 SCI-indexed articles in reputed journals such as Scientific Reports and Nature Humanities and Social Sciences Communications. Her research is often interdisciplinary—blending soft computing, big data, remote sensing, and human-centered AI—making her a pioneer in solving complex problems with integrated approaches.

Awards & Honors:

Prof. Chen has received numerous accolades, including the Outstanding Scientist Award 2024 from ScienceFather, IEEE Talents Award, and recognition as a Fellow of IET (UK) and ASEAN Fellow. She has also been appointed as a Changjiang Scholar Distinguished Professor, one of the most prestigious academic titles in China. In addition, her contributions have been recognized through international keynote speaker invitations and advisory roles in top global conferences and journals.

Global Collaborations:

Prof. Chen has engaged in international R&D partnerships with institutions such as University of California, University of Texas, and University of Sydney. She has delivered over 100 keynote and plenary talks in 15+ countries, emphasizing her role as a global voice in science and innovation. Her efforts have directly contributed to smart city development, AI-driven agriculture, medical data analytics, and aerospace AI systems.

Publications:

  • Exploring the sensitivity of next generation gravitational wave detectors
    BP Abbott, R Abbott, TD Abbott, MR Abernathy, K Ackley, C Adams, …
    Classical and Quantum Gravity, 34(4), 044001 (2017) – Cited by 1,529

  • Cosmology intertwined: A review of the particle physics, astrophysics, and cosmology associated with the cosmological tensions and anomalies
    E Abdalla, GF Abellán, A Aboubrahim, A Agnello, Ö Akarsu, Y Akrami, …
    Journal of High Energy Astrophysics, 34, 49–211 (2022) – Cited by 1,319

  • Carbon nanotube computer
    MM Shulaker, G Hills, N Patil, H Wei, HY Chen, HSP Wong, S Mitra
    Nature, 501(7468), 526–530 (2013) – Cited by 1,227

  • Three-dimensional reconstruction of a solid-oxide fuel-cell anode
    JR Wilson, W Kobsiriphat, R Mendoza, HY Chen, JM Hiller, DJ Miller, …
    Nature Materials, 5(7), 541–544 (2006) – Cited by 1,018

  • GPR55 is a cannabinoid receptor that increases intracellular calcium and inhibits M current
    JE Lauckner, JB Jensen, HY Chen, HC Lu, B Hille, K Mackie
    PNAS, 105(7), 2699–2704 (2008) – Cited by 893

  • Plasmonic nanolaser using epitaxially grown silver film
    YJ Lu, J Kim, HY Chen, C Wu, N Dabidian, CE Sanders, CY Wang, MY Lu, …
    Science, 337(6093), 450–453 (2012) – Cited by 878

  • Translation and back‐translation in qualitative nursing research: methodological review
    HY Chen, JRP Boore
    Journal of Clinical Nursing, 19(1–2), 234–239 (2010) – Cited by 870

  • Hyper Suprime-Cam: System design and verification of image quality
    S Miyazaki, Y Komiyama, S Kawanomoto, Y Doi, H Furusawa, T Hamana, …
    Publications of the Astronomical Society of Japan, 70(SP1), S1 (2018) – Cited by 645

  • The H0 Olympics: A fair ranking of proposed models
    N Schöneberg, GF Abellán, AP Sánchez, SJ Witte, V Poulin, …
    Physics Reports, 984, 1–55 (2022) – Cited by 468

  • Hyper Suprime-Cam
    S Miyazaki, Y Komiyama, H Nakaya, Y Kamata, Y Doi, T Hamana, …
    SPIE Proceedings: Ground-based and Airborne Instrumentation for Astronomy IV, 8446 (2012) – Cited by 380

Li Wang | Engineering | Best Scholar Award

Published on by Phenomenological Research Awards

Li Wang | Engineering | Best Scholar Award

PHD Candiate at chongqing university, China.

Li Wang is a dedicated Ph.D. candidate at Chongqing University, specializing in electrical engineering with a focus on ice prevention and mitigation for power grids. His journey began with a B.S. in electrical engineering from Qilu University of Technology, followed by an M.S. from Sichuan University. His current research is embedded within the prestigious State Key Laboratory of Power Transmission Equipment and System Security and New Technology at Chongqing University. Li has completed three research projects, with his work published in respected journals such as Applied Thermal Engineering and Polymers. His research aims to improve power system resilience by addressing ice accumulation and insulator flashover issues. With practical experience in a State Grid Zhejiang Electric Power Co. project and a citation index of 28.5, he is emerging as a promising scholar in electrical engineering and insulation technology, with plans to continue advancing research to address industry challenges.

Profile👤

Google Scholar

Education 🎓

Li Wang completed his B.S. degree in electrical engineering from Qilu University of Technology in 2016, where he developed foundational knowledge in power systems and insulation technology. Pursuing further specialization, he earned his M.S. in electrical engineering from Sichuan University in 2019, deepening his understanding of energy transmission and system reliability. His educational background is characterized by a blend of theoretical and practical learning, equipping him to handle the challenges of power grid reliability and insulation in extreme conditions. Currently, he is a Ph.D. candidate at Chongqing University, where he is engaged with the State Key Laboratory, recognized for advancing research in power transmission security. His academic journey reflects a commitment to excellence in electrical engineering and energy infrastructure, with each step laying a foundation for his research into ice prevention and system safety.

Experience💼

Li Wang’s professional and academic experience is rooted in electrical engineering, with a focus on developing solutions to protect power systems from extreme weather. As a Ph.D. candidate at Chongqing University, he has contributed to three significant research projects, each aimed at enhancing the resilience of electrical insulation in ice-prone environments. He has also gained practical experience through his involvement in an industry project with State Grid Zhejiang Electric Power Co., which provided real-world insights into the application of his research. This blend of research and industry experience has allowed Li to apply theoretical knowledge to practical problems, particularly in addressing challenges related to ice formation on power infrastructure. His work has been featured in leading journals, showcasing his ability to contribute valuable insights to the field.

Research Interests 🔬

Li Wang’s research interests lie at the intersection of electrical engineering, material science, and environmental sustainability. He is particularly focused on developing innovative solutions for ice prevention and mitigation in power systems, which are critical for ensuring system reliability in regions prone to freezing temperatures. His work involves analyzing and improving the performance of insulators and power transmission equipment under icy conditions, with the goal of minimizing system failures and enhancing the durability of electrical infrastructure. Li is also interested in advancing knowledge on how environmental factors affect insulation performance, with implications for the future of power grid maintenance and resilience. His research is driven by a commitment to both scientific discovery and practical application, aiming to support the energy sector in adapting to increasingly challenging environmental conditions.

Awards and Honors 🏆

Li Wang has achieved notable academic milestones, underscored by a citation index of 28.5, demonstrating the impact of his research in electrical engineering. Although early in his career, his publications in esteemed journals like Applied Thermal Engineering, Plant Methods, and Polymers have established him as a promising researcher in insulation technology. His work on ice prevention for energy equipment addresses critical challenges faced by the power industry, and his contributions to three research projects have been well-recognized within his academic community. Additionally, his involvement in an industry project with State Grid Zhejiang Electric Power Co. highlights his ability to translate research into real-world applications. Li’s academic achievements and professional contributions underscore his potential as an emerging leader in the field of power grid safety and resilience.

Conclusion 🔚 

Li Wang’s research in preventing and mitigating ice damage in power grids has potential for real-world impact, making him a promising candidate for the Best Scholar Award. With future growth in collaborations and publications, he has a strong foundation to contribute significantly to his field.

Publications Top Notes 📚

Title: “Mechanism of self-recovery of hydrophobicity after surface damage of lotus leaf”
Authors: L. Wang, L. Shu, Q. Hu, X. Jiang, H. Yang, H. Wang, L. Rao
Journal: Plant Methods
Year: 2024
Citation Count: 3

Title: “Ultra-efficient and thermally-controlled atmospheric structure deicing strategy based on the Peltier effect”
Authors: L. Wang, L. Shu, Y. Lv, Q. Hu, L. Ma, X. Jiang
Journal: Applied Thermal Engineering
Year: 2024
Citation Count: 1