Prof. Guodong Tang | Materials Science | Best Researcher Award

Nanjing University of Science and Technology | China 

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Early Academic Pursuits 📚

Prof. Guodong Tang's academic journey began with his foundational studies that led him to become a renowned researcher in the field of thermoelectrics and condensed matter physics. He is currently a professor at Nanjing University of Science and Technology. Over the years, he has honed his expertise in thermoelectric materials, magnetic materials, and condensed matter physics, contributing to the advancement of material science with innovative research. His dedication to understanding the interactions of materials at the atomic level has made him a pivotal figure in his field.

Professional Endeavors 💼

Prof. Tang has been serving as a professor at Nanjing University of Science and Technology since 2018, leading cutting-edge research in thermoelectric materials. His role extends beyond teaching as he is deeply involved in various research projects, including those funded by the National Natural Science Foundation of China. His focus has been on exploring new thermoelectric materials and their applications in energy efficiency and environmental sustainability. His professional career has been marked by a strong emphasis on collaboration, both within academic circles and with industry, driving forward innovation in material sciences.

Contributions and Research Focus 🔬

Prof. Tang's research has significantly advanced the understanding of thermoelectric and magnetic materials. His work on the development of high-performance SnSe and SnTe polycrystals has led to breakthroughs in energy conversion technology. His research focuses on understanding the role of metavalent bonds and dopant orbitals, which are essential for designing materials with low thermal conductivity and high thermoelectric efficiency. Prof. Tang's contributions are reshaping how scientists approach material design for energy applications, including efficient energy harvesting and storage systems.

Accolades and Recognition 🏆

Prof. Tang has earned widespread recognition for his pioneering work in thermoelectric materials. His research has been published in top-tier journals such as Nature Communications, Energy & Environmental Science, and Advanced Functional Materials. These publications have significantly impacted the academic community and are cited extensively in related fields. His work continues to inspire new research directions and has earned him prestigious awards, including recognition from major scientific institutions and research organizations.

Impact and Influence 🌍

Prof. Tang’s research has not only advanced scientific understanding but also has real-world applications that address global challenges. His work on thermoelectric materials, particularly the innovative designs of SnSe and SnTe, holds promise for improving energy conversion systems and reducing environmental impacts. The impact of his research extends into sustainable energy solutions, where his materials can lead to better energy storage and efficiency in power generation. His work influences the global scientific community, helping shape the future of energy technologies.

Legacy and Future Contributions 🌱

As a leader in the field of thermoelectrics, Prof. Tang's legacy will be defined by his groundbreaking research in material science. His continued work on improving the performance of thermoelectric materials positions him to make significant contributions to energy efficiency and sustainability in the future. With ongoing projects funded by prestigious institutions, Prof. Tang is poised to remain at the forefront of his field, influencing future generations of scientists and engineers. His work will continue to have a lasting impact on energy technologies, offering new solutions to the world's growing energy demands.

 

Publications

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• 📄 Interplay between metavalent bonds and dopant orbitals enables the design of SnTe thermoelectrics
  Authors: Tang, G., Liu, Y., Yang, X., Yu, Y., Wuttig, M.
  Journal: Nature Communications, Year: 2024

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• 📄 Divacancy and resonance level enables high thermoelectric performance in n-type SnSe polycrystals
  Authors: Gong, Y., Dou, W., Lu, B., Wu, H., Tang, G.
  Journal: Nature Communications, Year: 2024

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• 📄 Improving thermoelectric properties in double half-Heusler M8FexNi8−xSb8 (M = TiZrHfNb)-InSb compounds via synergistic multiscale defects and high-mobility carrier injection
  Authors: Wang, C., Cong, D., Tang, G., Zhou, X., Li, J.
  Journal: Chemical Engineering Journal, Year: 2024

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• 📄 High wide-temperature-range thermoelectric performance in GeTe through hetero-nanostructuring
  Authors: Zhang, Q., Ying, P., Farrukh, A., Chen, G., Tang, G.
  Journal: Acta Materialia, Year: 2024

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• 📄 CdSe Quantum Dots Enable High Thermoelectric Performance in Solution-Processed Polycrystalline SnSe
  Authors: Dou, W., Gong, Y., Huang, X., Ying, P., Tang, G.
  Journal: Small, Year: 2024

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