Changzhou University | China
Dr. Lijun Wang is a dynamic researcher and educator specializing in thermoelectric materials, currently a Research Fellow at the Queensland University of Technology and previously a Lecturer at Changzhou University. With a Ph.D. in Materials Science and Engineering from China University of Petroleum (Beijing) and a visiting Ph.D. experience at The University of Queensland, Dr. Wang brings a global perspective to advanced materials research. His expertise bridges energy materials, nanostructures, and thermal transport, underlined by over 28 peer-reviewed publications, 5 patents, and an impressive academic citation record.
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🎓 Early Academic Pursuits
Dr. Wang began his academic journey with a Bachelor’s degree in Polymer Materials from Liaocheng University, followed by a Master’s in Textile and Material Engineering from Dalian Polytechnic University. His drive for deeper scientific exploration led to a Ph.D. in Materials Science and Engineering at China University of Petroleum-Beijing, supported by the China Scholarship Council. As a Visiting Ph.D. Researcher at The University of Queensland, he honed his skills in nanomaterials and thermoelectrics, laying the foundation for his future contributions in thermal conductivity engineering and energy conversion systems.
🧑‍🔬 Professional Endeavors
Dr. Wang’s professional career features a dual academic appointment—a Lecturer at Changzhou University since 2020 and a Research Fellow at Queensland University of Technology starting in 2024. At Changzhou University, he has taught and developed several key materials science and chemistry courses. His academic leadership also includes supervising Master’s and undergraduate research projects. His international experience and involvement in multi-institutional collaborations highlight his role in advancing research on SnTe-based and flexible thermoelectric systems, contributing to global energy solutions and academic excellence.
🔬 Contributions and Research Focus
Dr. Wang’s research is focused on thermoelectric materials, especially SnTe-based systems, thermal conductivity minimization, and nanostructure engineering. He has significantly contributed to the design of high-performance materials using doping strategies, phonon scattering mechanisms, and solution-based synthesis methods. His work addresses critical needs in flexible electronics, energy harvesting, and battery thermal management. Dr. Wang’s impactful studies have been published in prestigious journals like ACS Applied Materials & Interfaces, Chemical Society Reviews, and Nano Energy, where he frequently serves as first author or co-corresponding author.
🌏 Impact and Influence
Dr. Wang’s research has attracted over 700 Google Scholar citations, demonstrating significant scientific influence. His innovations in SnTe thermoelectric materials have received international recognition, contributing to advancements in green energy technologies and sustainable materials. He has co-authored in high-impact journals such as Advanced Science, ACS Nano, and Acta Materialia, influencing the academic and industrial communities alike. His patented technologies represent tangible outputs of academic research into real-world applications, particularly in energy-efficient electronic systems.
đź“š Academic Citations
With 28 publications, including 10 first-author papers, 5 patents, and an H-index of 12, Dr. Wang’s work has achieved 704 citations to date. His most cited work on Se/Cd Co-doped SnTe has been referenced 56 times, highlighting its impact on thermoelectric research. Several of his publications in ACS Applied Materials, Nano Energy, and Chemical Engineering Journal are foundational to lattice thermal conductivity and nanostructuring techniques. His research continues to influence new generations of material scientists, both through citations and collaborative projects.
🛠️ Research Skills
Dr. Wang possesses a strong arsenal of experimental techniques, including microwave solvothermal synthesis, nanostructure design, and high-resolution microscopy. His work involves thermal property measurements, electronic transport analysis, and computational modeling of energy materials. He is skilled in collaborative research, project management, and multidisciplinary problem-solving, especially in the fields of thermoelectrics, photovoltaics, and membrane materials. His ability to translate fundamental science into technological innovation is reflected in both his patented methods and high-impact publications.
🧑‍🏫 Teaching Experience
At Changzhou University, Dr. Wang has taught and developed curriculum for four core undergraduate courses: Material Economy and Management, Organic Membrane Materials, Foundations of Crystallography, and Experimental Chemistry from 2020 to 2023. His innovative teaching approach integrates theoretical grounding with practical applications, inspiring students toward research excellence. As a certified higher education lecturer and Master’s thesis supervisor, he has mentored over 10 undergraduate and graduate students, many of whom have pursued advanced studies and research roles under his guidance.
🏆 Awards and Honors
Dr. Wang has received numerous prestigious awards including the Chinese Government Award for Outstanding Joint PhD Students Abroad (2017) and the National PhD Scholarship. He also won the Outstanding Poster Award at the Chinese Materials Conference 2017. His teaching and academic merits earned him the Higher Education Teaching Qualification Certificate and Master’s Supervisor Certification in China. His early academic excellence was recognized with multiple university scholarships and an Outstanding Graduate Award a testament to his consistent academic dedication and leadership.
🚀 Legacy and Future Contributions
Dr. Wang aims to pioneer the next generation of energy materials through advanced thermoelectric systems, flexible devices, and scalable synthesis methods. With his evolving role at Queensland University of Technology, he is poised to lead international collaborations, contribute to climate-conscious technologies, and mentor a new wave of materials scientists. His growing body of patented inventions and scholarly works will shape the future of energy conversion technologies. Dr. Wang’s legacy lies in his dedication to bridging fundamental research with real-world impact, paving a sustainable path forward.
Top Noted Publications
Zn/In dual doping enhances the thermoelectric performance of SnTe
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Authors: Lijun Wang, Xiao-Lei Shi, Lvzhou Li, Cuicui Dong, Pengcheng Miao, Ziyi Shen, Ningyi Yuan, Jianning Ding, Shuqi Zheng, Zhi-Gang Chen
Journal: Journal of Physics: Materials
Year: 2024
Advances in solid-state and flexible thermoelectric coolers for battery thermal management systems
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Authors: Lijun Wang, Xiao-Lei Shi, Yicheng Yue, Lvzhou Li, Cuicui Dong, Jianjun Guan, Jianning Ding, Ningyi Yuan, Zhi-Gang Chen
Journal: Soft Science
Year: 2024
Advancing flexible thermoelectrics for integrated electronics
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Authors: Xiao-Lei Shi, Lijun Wang, Wanyu Lyu, Tianyi Cao, Wenyi Chen, Boxuan Hu, Zhi-Gang Chen*
Journal: Chemical Society Reviews
Year: 2024
Zinc Doping Induces Enhanced Thermoelectric Performance of Solvothermal SnTe
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Authors: Lijun Wang, Xiao-Lei Shi*, Lvzhou Li, Min Hong, Bencai Lin, Pengcheng Miao, Jianning Ding, Ningyi Yuan, Shuqi Zheng*, Zhi-Gang Chen*
Journal: Chemistry – An Asian Journal
Year: 2024
Hierarchical Structuring to Break the Amorphous Limit of Lattice Thermal Conductivity in High-Performance SnTe-Based Thermoelectrics
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Authors: Lijun Wang, Min Hong, Qiang Sun, Yuan Wang, Luo Yue, Shuqi Zheng*, Jin Zou*, Zhi-Gang Chen*
Journal: ACS Applied Materials & Interfaces
Year: 2020