Wang chengmin | Materials Science | Young Scientist Award

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Dr. wang chengmin | Materials Science | Young Scientist Award

Dr. wang chengmin, Dalian jiaotong university, China

📚 Dr. Wang Chengmin, born in 1983, is a senior engineer and PhD candidate jointly trained by Tsinghua University and Dalian Jiaotong University. With 15 years of expertise in materials science, he specializes in ultra-pure alumina and ultrafine oxides. His innovative contributions in industrializing high-purity alumina using the alcohol aluminum method have advanced China’s materials industry. Dr. Wang has published over ten papers and holds eleven patents. His extensive research in sol-gel technology and catalysis underscores his impact in both academia and industry.

Publication Profile

Orcid

Education

🎓 Dr. Wang Chengmin graduated from East China University of Science and Technology in 2006 with a degree in Polymer Materials and Engineering. In 2009, he earned a Master’s degree in Materials Science from Dalian Jiaotong University. Currently, he is pursuing a PhD in Materials Science and Engineering through a joint program at Tsinghua University and Dalian Jiaotong University. His interdisciplinary academic background has equipped him with comprehensive knowledge and expertise in advanced materials research and development.

Experience

🛠️ Dr. Wang Chengmin has accumulated nearly 15 years of experience in research, industrialization, and technology transfer. He led the development of China’s first production line for high-purity alumina using the alcohol aluminum method. His work extends to aluminum-based porous catalysis, ceramics, aerogels, and colloidal materials. With deep expertise in sol-gel technology, Dr. Wang has significantly contributed to the commercialization of innovative materials and advanced manufacturing technologies.

Awards and Honors

🏆 Dr. Wang Chengmin’s impactful research and industrial achievements have earned him recognition in the field of materials science. With 11 authorized invention patents and over 10 research publications, he has established himself as a leader in ultra-pure alumina technology. His contributions to industrialization and technology transfer have been acknowledged through prestigious awards, reflecting his dedication to innovation and excellence in the field.

Research Focus

🔬 Dr. Wang Chengmin’s research focuses on ultra-pure alumina, ultrafine oxides, and sol-gel technology. He specializes in the industrial applications of aluminum-based porous catalysis, ceramics, aerogels, and colloidal materials. His pioneering work in the alcohol aluminum method has propelled advancements in high-purity alumina production. Through continuous exploration in materials science and engineering, Dr. Wang remains committed to developing innovative solutions for industrial challenges.

 

Publication Top Notes

Preparation of Large-Sized Flaky Al<sub>2</sub>O<sub>3</sub> for Thermally Conductive Fillers and Its Formation Mechanisms

 

Zhenhai Wen | Materials chemistry | Best Researcher Award

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Dr. Zhenhai Wen | Materials chemistry | Best Researcher Award

Dr. Zhenhai Wen, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, China

Dr. Zhenhai Wen is a Professor at the Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences. He earned his Ph.D. in Chemistry from the Chinese Academy of Sciences/Tsinghua University (2008) and completed postdoctoral research at Max Planck Institute (Germany) and University of Wisconsin-Milwaukee (USA). His work focuses on functional nanostructures for electrochemical energy conversion and storage. A Highly Cited Researcher (2018-2023), he has received prestigious awards, including the National Science Fund for Distinguished Young Scholars (2022). Dr. Wen has led multiple high-impact research projects on hydrogen generation and fuel cells. 🚀🔋

Publication Profile

Google Scholar

Education Background 🎓📚

Dr. Zhenhai Wen holds a Ph.D. in Chemistry from the Chinese Academy of Sciences/Tsinghua University (2008), where he conducted research under Prof. JingHong Li. He earned his M.Sc. in Environmental Science from Beijing University of Technology (2004), guided by Prof. Tianfang Kang. His academic journey began with a B.Sc. in Chemistry from Gannan Normal University (1998), mentored by Prof. XuZhong Luo. His strong educational foundation has played a pivotal role in shaping his expertise in functional nanostructures, electrochemical energy conversion, and storage systems. 🏆🔬

Research Experience 🔬📖

Dr. Zhenhai Wen has been a Professor at the Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences since 2015, leading advancements in functional nanostructures and electrochemical energy systems. Previously, he was a postdoctoral researcher at the University of Wisconsin-Milwaukee (2010-2014) and a visiting scholar at the University of Texas, Austin (2013). He also held a Humboldt postdoctoral fellowship at the Max Planck Institute for Polymer Research (2009-2010). Earlier roles include Assistant Professor at Nanchang Hangkong University (2008-2009) and Research Scholar at Beijing Titan Instruments Co., Ltd (2004-2005). ⚡🔋

Awards & Recognitions 🏆🎖️

Dr. Zhenhai Wen has received numerous prestigious awards for his contributions to nanostructure design and electrochemical energy research. He was honored with the National Science Fund for Distinguished Young Scholars (2022) and recognized as a Highly Cited Researcher by Clarivate Analytics (2018-2023). He was selected for the Hundred Talents Program of Fujian Province (2015) and the 1000 Plan Professorship for Young Talents (2014). His early accolades include the JinGang Scholar Professorship (2014), Alexander von Humboldt-Foundation Scholarship (2009), Dean Scholarship of the Chinese Academy of Sciences (2008), and Excellent Graduate Student Award of Beijing University of Technology (2004). 🌍🔬

Research Focus 🔬⚡

Dr. Zhenhai Wen specializes in nanostructured materials for energy storage and conversion, with a strong emphasis on electrocatalysis, supercapacitors, batteries, and gas sensing. His work spans graphene-based materials, metal-organic frameworks (MOFs), and high-entropy alloys, contributing to advancements in fuel cells, hydrogen evolution, and CO₂ reduction. His research also explores functional nanomaterials for lithium-ion batteries, oxygen reduction reactions (ORR), and photoelectrochemical applications. Recognized as a highly cited researcher, Dr. Wen’s interdisciplinary work bridges chemistry, materials science, and renewable energy technologies. 🌱⚛️🔋

Publication Top Notes

  • Crumpled nitrogen‐doped graphene nanosheets with ultrahigh pore volume for high‐performance supercapacitor1029 citations (2012)
  • Electrocatalysis for CO₂ conversion: from fundamentals to value-added products897 citations (2021)
  • Constructing 2D porous graphitic C₃N₄ nanosheets/nitrogen-doped graphene/layered MoS₂ ternary
  • nanojunction with enhanced photoelectrochemical activity850 citations (2013)
  • An advanced nitrogen‐doped graphene/cobalt‐embedded porous carbon polyhedron hybrid for efficient
  • catalysis of oxygen reduction and water splitting755 citations (2015)
  • Ultrahigh sensitivity and layer-dependent sensing performance of phosphorene-based gas sensors715 citations (2015)
  •  A hybrid supercapacitor fabricated with a carbon nanotube cathode and a TiO₂–B nanowire anode695 citations (2006)
  • High-performance bi-functional electrocatalysts of 3D crumpled graphene–cobalt oxide nanohybrids for oxygen reduction and evolution reactions670 citations (2014)
  • Nitrogen‐enriched core‐shell structured Fe/Fe₃C‐C nanorods as advanced electrocatalysts for oxygen reduction reaction569 citations (2012)
  • Oxygen‐containing amorphous cobalt sulfide porous nanocubes as high‐activity electrocatalysts for the oxygen evolution reaction in an alkaline/neutral medium564 citations (2017)
  • Metal−Organic Framework‐Derived Nitrogen‐Doped Core‐Shell‐Structured Porous Fe/Fe₃C@C Nanoboxes Supported on Graphene Sheets for Efficient Oxygen Reduction563 citations (2014)
  • In situ growth of mesoporous SnO₂ on multiwalled carbon nanotubes: A novel composite with porous‐tube structure as anode for lithium batteries545 citations (2007)
  • Stabilizing MoS₂ Nanosheets through SnO₂ Nanocrystal Decoration for High‐Performance Gas Sensing in Air390 citations (2015)
  • Core/shell Pt/C nanoparticles embedded in mesoporous carbon as a methanol-tolerant cathode catalyst in direct methanol fuel cells389 citations (2008)
  • N-doped porous carbon nanosheets as pH-universal ORR electrocatalyst in various fuel cell devices344 citations (2018)
  • Vertically oriented graphene bridging active-layer/current-collector interface for ultrahigh rate supercapacitors324 citations (2013)
  • High entropy alloy electrocatalytic electrode toward alkaline glycerol valorization coupling with acidic hydrogen production312 citations (2022)
  • An electrochemically neutralized energy-assisted low-cost acid-alkaline electrolyzer for energy-saving electrolysis hydrogen generation312 citations (2018)
  • Silicon nanotube anode for lithium-ion batteries307 citations (2013)
  • Tuning gas-sensing properties of reduced graphene oxide using tin oxide nanocrystals306 citations (2012)