Associate professor at University of Electronic Science and Technology of China, China
Dr. Na Yang (b. Jan 1992) is an Associate Professor at the School of Materials and Energy, University of Electronic Science and Technology of China, Chengdu ๐จ๐ณ. She earned her Ph.D. in Chemical Engineering and Technology from Chongqing University and completed postdoctoral research under Prof. Zhongwei Chen at South China Normal University and the University of Waterloo ๐จ๐ฆ. Her research focuses on density functional theory (DFT)๐ง , ab initio molecular dynamics (AIMD)๐งช, catalyst design๐งฒ, and electrochemical mechanismsโก. With an H-index of 15, Dr. Yang has published in high-impact journals like Angewandte Chemie, Advanced Materials, and ACS Energy Letters ๐. She has contributed significantly to the fields of COโ reduction, oxygen reduction reactions, and nitrogen fixation catalysis ๐ฑ.
Publication Profile
Scopus Profile
Dr. Yang Na’s research spans several cutting-edge areas in materials science and energy technology โ๏ธโก. Her primary expertise lies in density functional theory (DFT) and ab initio molecular dynamics (AIMD), which she uses to model and simulate material behavior at the atomic level ๐งฌ๐ป. She is deeply involved in the design and screening of catalysts for various energy applications, focusing on improving efficiency and stability ๐๐. Dr. Yang also works on the preparation of new highly active catalysts, utilizing advanced synthesis techniques to enhance catalytic performance ๐งชโ๏ธ. Another key area of her research is the exploration of electrochemical catalytic mechanisms, where she investigates fundamental reaction pathways to optimize energy conversion processes such as hydrogen evolution and oxygen reduction ๐ฑโก. Through these interdisciplinary approaches, Dr. Yang contributes significantly to the development of sustainable and high-performance energy materials for a greener future ๐๐ง
๐ Educational Background
Dr. Yang Na earned her Ph.D. in Chemical Engineering and Technology from Chongqing University, Chongqing, China, where she studied from September 2014 to June 2020 ๐งช๐. Under the expert mentorship of Professor Li Li, she developed a strong foundation in advanced chemical engineering principles and materials research ๐ฌ๐. Her doctoral studies involved in-depth exploration of catalyst design, electrochemical energy conversion, and computational modeling, laying the groundwork for her current contributions to energy materials and catalysis research ๐กโ๏ธ. The rigorous academic environment at Chongqing University provided her with both theoretical knowledge and hands-on research experience, enabling her to tackle real-world energy challenges with innovative scientific approaches ๐๐ป. Dr. Yang’s time at Chongqing University was instrumental in shaping her expertise in computational chemistry, materials synthesis, and electrochemical systems, which continue to define her career as a forward-thinking and impactful researcher in the field of materials science and energy technology โ๏ธ๐.
๐ผ Professional Experience
From September 2020 to September 2022, Dr. Yang Na undertook postdoctoral research that significantly advanced her expertise in materials and energy science ๐ฑ๐ฌ. She began her postdoctoral journey at the School of Information and Optoelectronic Science and Engineering, South China Normal University, Guangdong, China, where she worked under the mentorship of Prof. Zhongwei Chen ๐ก๐ง . During this period, she focused on optoelectronic materials and their applications in energy systems.
Simultaneously, Dr. Yang continued her postdoctoral research at the School of Chemistry and Chemical Engineering, University of Waterloo, Ontario, Canada ๐โ๏ธ. Under the same mentorship of Prof. Chen, she deepened her research into electrocatalysis and advanced energy storage materials, contributing to cutting-edge developments in sustainable energy technologies ๐๐. These international and interdisciplinary experiences enriched her research perspective and equipped her with global insights into innovation and collaboration in the materials science domain ๐๐งช.
Research Focus
Dr. Yang Na specializes in cutting-edge research within the fields of catalysis, energy materials, and sustainable chemistry โ๏ธ๐. Her work spans a diverse range of topics including electrocatalysis, chemical looping reforming, COโ photoreduction, and ammonia synthesis. Using advanced techniques like density functional theory (DFT) and ab initio molecular dynamics (AIMD), she designs and screens highly active catalysts for clean energy conversion ๐ฑ๐. Her contributions to perovskite-based and polymer dielectric materials show a strong interdisciplinary approach, connecting materials science, environmental engineering, and green chemistry โป๏ธ๐งช. Dr. Yang’s research plays a vital role in promoting efficient energy solutions.
Conclusion
Dr. Yang Na’s exceptional research in renewable energy, particularly her work on catalytic mechanisms and material design for electrochemical reactions, positions her as an outstanding candidate for the “Best Researcher Award.” Her contributions to both theoretical and practical aspects of energy research make her a leader in the field, and her continued work promises to bring lasting impacts to sustainable energy solutions.
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๐ฌ Tailoring active lattice oxygen in CeOโ-Based oxygen carriers for enhanced chemical looping dry reforming of methane โ Journal of the Energy Institute, 2025 ย ๐
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โก NiFe-based arrays with MnOโ enhance chloride blocking for durable alkaline seawater oxidation โ Journal of Colloid and Interface Science, 2025 | 1 citation ๐ง
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๐ Rational Design of Methylated Triazine-Based Polymers for COโ Photoreduction with Water โ Advanced Materials, 2025 ย ๐
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๐งช Durable, Super-Resilient Polyurethane Elastomers via Hydrogen Bond Cross-Linking โ Macromolecules, 2025ย ๐งต
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๐งซ Axial Cl-Induced Symmetry-Breaking Iron SAC for Electrochemical Ammonia Synthesis โ ACS Catalysis, 2025 โ๏ธ
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๐ All-organic dielectric PP-based polymer with high breakdown strength โ Polymer, 2025 ย โก
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๐งด Mini-review: Indium-oxide based catalysts for COโ to methanol โ 2025 ย ๐
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๐ก Lattice Oxygen Redox in Zeolite-Encapsulated CsPbBrโ Perovskites for OER โ Advanced Science, 2025 ๐
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๐ Real-Time Detection in KNixFeโโโFโ Perovskites for Water Oxidation โ Small, 2025 | 1 citation ๐
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๐ง Water dissociation via bimetallic phosphide & Mn oxide for alkaline HER โ Nano Research, 2025 ย ๐