Hong Jin | Nano-Materials | Distinguished Scientist Award

Prof. Dr. Hong Jin 👨‍🔬 is a professor-level senior engineer at the School of Nano-Science and Nano-Engineering, Xi’an Jiaotong University, China 🇨🇳. Based in Suzhou 🏙️, he serves as the Deputy Director of Nano-Materials at the Suzhou Academy. With a Ph.D. in Agricultural & Bioresources Engineering from South Dakota State University 🎓, Dr. Jin has coauthored 50+ publications 📚 and holds multiple patents 🧾. His work focuses on advanced electrode materials for water purification 💧, electrocatalysis ⚡, and energy storage 🔋. He has received several prestigious awards 🏆 and leads projects funded by national and international foundations 🌍.

Publication Profiles

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 Education & Experience 

🎓 Education:

• 📍 2011.8–2014.8: Ph.D., Agricultural & Bioresources Engineering, South Dakota State University – Focus: Advanced carbon development

• 📍 2009.9–2011.8: M.Sc., Marine Chemistry, East China Normal University

• 📍 2002.9–2006.7: B.Sc., Applied Chemistry, Harbin Institute of Technology

🧑‍🔬 Professional Experience:

• 🔬 2020.9–Present: Professor-level Senior Engineer, Xi’an Jiaotong University

• 🧪 2018.10–Present: Deputy Director, Nano-Materials, Suzhou Academy

• 🧫 2015.4–2020.9: Associate Research Fellow, Suzhou Academy, Xi’an Jiaotong University

Summary Suitability For The Award

Prof. Dr. Hong Jin, a professor-level senior engineer at the School of Nano-Science and Nano-Engineering, Xi’an Jiaotong University, China, is a highly deserving Candidate for the Distinguished Scientist Award in recognition of his exceptional achievements in nanomaterials, energy conversion systems, and environmental engineering. With a multidisciplinary academic foundation in applied chemistry, marine chemistry, and a Ph.D. in Agricultural & Biosystems Engineering from South Dakota State University, Dr. Jin has forged a research career that bridges fundamental science with industrial impact.

 Professional Development

Dr. Hong Jin continuously advances professionally through research collaborations 🌐, grant acquisition 💼, and cross-disciplinary innovation. His leadership role as Deputy Director at Suzhou Academy enables him to guide cutting-edge research on nano-materials 🔍. He actively contributes to the academic community with 50+ peer-reviewed publications 📝 and several patent filings. Dr. Jin’s expertise has been recognized through national and international projects backed by organizations like the National Science Foundation of China and industrial collaborations such as Saint-Gobain 🤝. He stays current in the field by attending scientific forums, mentoring young scientists 👨‍🏫, and engaging in high-impact research 📈.

 Research Focus 

Dr. Jin’s research focuses on developing advanced nanomaterials 🧪 for energy storage 🔋, water treatment 💦, and electrochemical applications ⚡. His work addresses the performance and scalability of energy systems such as Li-S batteries, silicon and LTO anodes, and supercapacitors 💡. He also explores electrocatalysts and carbon materials for sustainable energy and environmental solutions 🌿. His interdisciplinary approach integrates chemistry, materials science, and environmental engineering 🔄, contributing to global progress in clean energy and green technologies 🌍. The ultimate aim is to create efficient, cost-effective, and eco-friendly solutions for critical industrial and environmental challenges 🔧.

 Awards & Honors 

• 🏆 Joseph F. Nelson Award

• 🏅 2018 IAAM Young Scientist Award

• 💰 Grants from:

  • National Science Foundation of China 🇨🇳

  • Jiangsu Province Fundamental Research Foundation

  • Suzhou City Key Industry Technological Innovation Foundation 🏭

  • Saint-Gobain & XJTU Cooperation Foundation 🤝

Publication Top Noted

📘 Three-dimensional topological porous carbon/carbon nanotube/graphene matrix decorated with CoFe alloy for lithium-sulfur batteries (2025) — Carbon 🔋🧪

📘 CoS-FeS heterostructures supported by N-doped carbon nanocage as efficient catalyst for lithium-sulfur batteries (2025) — Journal of Power Sources ⚡🔬

📘 A Facilely Synthesized NiCo₂S₄ with Two Mutually Reinforcing Active Sites for High-Performance Lithium–Sulfur Batteries (2023) — ACS Applied Materials & Interfaces ⚙️🔋

📘 A novel flower-like hierarchical aluminum-based MOF anode for high-performance lithium-ion batteries (2022) — CrystEngComm 🌸🔋

📘 Promising Au&CNTs@N-Doped Hierarchical Carbon Composite for High-Performance Lithium–Sulfur Batteries (2022) — Energy & Fuels 💡🔋

📘 Rapid Oxidation Synthesis of Hollow Cupric Oxide-Decorated rGO with High Performance and Kinetically Enhanced Lithium Storage (2022) — Energy & Fuels 🚀🧪

📘 Yolk–Shell Cu₂O@CuO‐decorated RGO for High‐Performance Lithium‐Ion Battery Anode (2022) — Energy & Environmental Materials 🥚🔋

📘 Direct laser writing of pure lignin on carbon cloth for highly flexible supercapacitors with enhanced areal capacitance (2021) — Sustainable Energy & Fuels ♻️⚡

📘 The synergetic effects of citric acid and rice husk derived honeycomb carbon matrix on silicon anode for lithium ion batteries (2020) — Sustainable Energy & Fuels 🍚🔋

📘 A green-synthetic spiderweb-like Si@Graphene-oxide anode material with multifunctional citric acid binder (2020) — Carbon 🕸️🔋

📘 Novel construction of nanostructured carbon materials as sulfur hosts for advanced lithium‐sulfur batteries (2020) — International Journal of Energy Research ⚛️🔋