Mr. Yu Jin, Pingdingshan University, China.
Yu Jin (靳瑜) 🎓 received his Ph.D. in Materials Science from Soochow University in 2022. He is currently serving as an Associate Professor 🧪 at the School of Chemistry and Environmental Engineering, Pingdingshan University. His research revolves around noble metal-based catalysts, energy conversion devices, and sustainable material innovation ⚗️⚡. With a strong background in both academia and industry, he has authored over 20 research papers 📄 and holds 5 Chinese invention patents, with 2 already granted 📑🔬. Passionate about advancing green technologies, Dr. Jin is dedicated to impactful scientific contributions and mentorship. 📚💡
Publication Profiles
Scopus
Education & Experience
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🎓 Ph.D. in Materials Science, Soochow University (2019.09–2022.07)
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👨🏫 Associate Professor, Pingdingshan University (2022.08–Present)
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🧪 Project Manager, Shanghai Hela Electronics Co., Ltd. (2016.02–2019.09)
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🚗 Project Manager, Zhengzhou Nissan Automobile Co., Ltd. (2012.07–2016.02)
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🎓 Master’s Degree in Materials Science, Hefei University of Technology (2009.09–2012.05)
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🛠️ Bachelor’s Degree in Metal Materials Engineering, Henan University of Science and Technology (2005.09–2009.07)
Suitability for the Award
Dr. Yu Jin is a deserving candidate for the Best Researcher Award in recognition of his outstanding contributions to the fields of noble metal‐based catalyst materials and energy conversion devices. Currently serving as an Associate Professor at the School of Chemistry and Environmental Engineering, Pingdingshan University, Dr. Jin exemplifies research excellence, combining strong academic credentials with impactful innovation and interdisciplinary collaboration. With a Ph.D. in Materials Science from Soochow University and over a decade of professional and academic experience, his work demonstrates both scholarly rigor and industrial relevance.
Professional Development
Dr. Yu Jin has developed professionally through a blend of academic excellence and industry experience 👨🔬🏭. With hands-on roles as a project manager in automotive and electronics sectors 🚘🔧, he brings real-world insight into academic innovation. Since transitioning to academia, he has focused on high-performance catalyst materials and energy conversion devices ⚙️⚡. His professional journey includes publishing impactful research, mentoring students, and securing patents, illustrating his continuous commitment to knowledge transfer and technological advancement 📘🔍. Dr. Jin remains active in scientific forums, driving collaborative research and sustainable materials development 🌿🤝.
Research Focus
Dr. Yu Jin’s research is centered around the design and synthesis of noble metal-based catalytic materials for energy conversion technologies such as fuel cells and water-splitting systems 🔬⚡. He explores ways to enhance the efficiency, stability, and environmental compatibility of energy materials ♻️🧪. His interdisciplinary approach combines materials science, electrochemistry, and nanotechnology to address pressing energy challenges 🌍🔋. By focusing on sustainable applications and novel catalytic mechanisms, his work contributes to cleaner energy systems and advanced material innovation 💡⚙️. His research ultimately aims to support global transitions toward green and renewable technologies 🌱🌞.
Awards & Honors
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🏆 2 Granted Chinese Invention Patents (out of 5 applications)
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📄 Published over 20 Scientific Research Papers in peer-reviewed journals
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🧑🏫 Promoted to Associate Professor immediately after Ph.D. completion
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🏅 Recognized for Contributions in Catalyst Material Innovation and Energy Devices Research
Publication Top Noted
📘 2025 – Selenium induced multicomponent platinum-based ultrathin nanowires…
⚡ 2025 – High-Strength Gel Polymer Electrolytes for Flexible Zinc-Air Batteries
🔬 2025 – Ultrafine NiCo₂S₄ Nanosheets for ORR and OER Catalysis
🧪 2025 – L1₀ PtZn Intermetallic Nanoparticles for Selective Hydrogenation
🧯 2024 – Metastable-Phase 2D Metal Oxides for Electrocatalysis
⚙️ 2024 – Morphology Engineering of Pd-Pb Intermetallics for Electrocatalysis
🏭 2023 – Effect of Pouring Temperature on ZL101 Semisolid Slurry
💥 2023 – Ultrafine High-Entropy Alloy Nanoparticles for Methanol Oxidation
🔧 2022 – Top-down Synthesis of L1₀ Platinum Intermetallics for Hydrogenation