Publication profile
Google Scholar
Academic and Professional Background
Dr. Shi’s prolific output includes over 30 publications in reputable journals such as Advanced Materials and Nano Letters. His research focuses on near-field thermal radiation, where he has developed innovative methods that surpass blackbody limits, resulting in national recognition and multiple awards. His citation index indicates a strong impact within his field, boasting 683 total citations, an h-index of 13, and an i10-index of 17.
Research and Innovations
Dr. Shi leads several significant research projects, including those funded by the National Natural Science Foundation of China and the Key Research and Development Program of Ningbo. His involvement in high-value projects demonstrates his commitment to advancing knowledge in his field, with substantial financial backing indicating the importance of his work. His collaborative efforts with national projects further underline his role as a key researcher in nanotechnology and thermal conversion mechanisms.
Publication Top Notes
- Nonreciprocal wide-angle and narrowband thermal emitter – J Wang, K Shi, X Xing, Materials Today Physics – Cited by: 0 – Year: 2024 š
- Ultra-broadband and wide-angle nonreciprocal thermal emitter based on Weyl semimetal metamaterials – K Shi, Y Sun, R Hu, S He, Nanophotonics – Cited by: 10 – Year: 2024 š
- Comparison of the Casimir force between SiC plates with different permittivity models: Lorentz model and Palik data – Y Hu, X Wu, L Ge, K Shi, X Huang, Materials Today Communications – Cited by: 0 – Year: 2024 š
- Near-field radiative modulator based on Ī±-MoO3 films – L Li, X Wu, H Liu, K Shi, Y Liu, K Yu, International Journal of Heat and Mass Transfer – Cited by: 7 – Year: 2023 š
- Near-field radiative heat transfer between multilayer structures composed of different hyperbolic materials – K Yu, L Li, K Shi, H Liu, Y Hu, K Zhang, Y Liu, X Wu, International Journal of Heat and Mass Transfer – Cited by: 12 – Year: 2023 š
- Enhanced near-field radiative heat transfer between core-shell nanoparticles through surface modes hybridization – Y Hu, H Liu, B Yang, K Shi, M Antezza, X Wu, Fundamental Research – Cited by: 4 – Year: 2023 š
- Enhancing circularly polarized emission by a planar chiral dielectric metasurface – Y Sun, Z Hu, K Shi, T Guo, Y Xing, Y Jin, S He, Advanced Optical Materials – Cited by: 10 – Year: 2023 š
- Enhancement and modulation of three-body near-field radiative heat transfer via anisotropic hyperbolic polaritons – H Liu, K Shi, K Zhou, Q Ai, M Xie, X Wu, International Journal of Heat and Mass Transfer – Cited by: 8 – Year: 2023 š
- Polariton hybridization phenomena on near-field radiative heat transfer in periodic graphene/Ī±-MoO3 cells – J Zhang, B Yang, K Shi, H Liu, X Wu, Nanophotonics – Cited by: 13 – Year: 2023 š
- Strong nonreciprocal thermal radiation of transverse electric wave in Weyl semimetal – J Wu, B Wu, K Shi, X Wu, C Fu, International Journal of Thermal Sciences – Cited by: 34 – Year: 2023 š
Conclusion
Dr. Kezhang Shi’s extensive contributions to the field of optical engineering, his innovative research projects, and his commitment to academic excellence, he is exceptionally well-suited for the Best Researcher Award. His achievements not only advance scientific understanding but also have practical implications in technology and energy efficiency. His dedication and impact in the realm of near-field thermal radiation make him a deserving candidate for this prestigious recognition.