Biography

Prof. Gui-Hua Tang

Xi'an Jiaotong University, China


Email: ghtang@mail.xjtu.edu.cn


Qualifications

2004  Ph.D., Xi’an Jiaotong University, China, Engineering Thermophysics

1999  M. Sc., Xi’an Jiaotong University, China, Thermal Engineering

1996  B. Sc., Xi’an Jiaotong University, China, Thermal Engineering


Publications (Selected)

  1. Nie, Y., Hu, Y., Xin, N., Li, Y., Zhao, X., Zhang, M., & Tang, G. (2025). Cost-effective graphite aerogel for high-temperature thermoelectrics: Synergizing ultra-high electrical conductivity and thermal insulation. Journal of Colloid and Interface Science, 137926.
  2. Huang, W. S., Ning, H. Y., & Tang, G. H. (2025). Investigation of high-compactness and high-efficiency TPMS precoolers for precooled aero-engine. Energy, 319, 135014.
  3. Hu, Y., Tao, J., Nie, Y., He, C., Si, Q., Sun, C., ... & Tang, G. (2025). Ambient-freeze hybrid drying: A facile, low-cost synthesis method for composite silica aerogel with ideal formability and thermal insulation performance. Ceramics International, 51(10), 12842-12852.
  4. Men, J., He, C., Wang, L., Feng, J., Jiang, Y., Li, L., ... & Feng, J. (2025). Synthesis of structure controllable carbon aerogel with low drying shrinkage and Scalable size as High-Temperature thermal insulator. Chemical Engineering Journal, 503, 157989.
  5. Zhang, M., Shi, X. L., Mao, Y., Li, M., Moshwan, R., Cao, T., ... & Chen, Z. G. (2024). High‐performance GeSe‐based thermoelectrics via Cu‐doping. Advanced Functional Materials, 34(52), 2411054.
  6. Si, Q. L., Tang, G. H., Yang, M. Y., Yang, R., Hu, Y., Du, M., & Zhang, H. (2024). Ambient-dried hydrophobic silica aerogels for both enhanced transparency and thermal insulation. Ceramics International, 50(22), 48680-48691.
  7. Yang, M., Guo, L., Tang, G., Shi, Y., Sheng, Q., & Li, X. (2024). Dual role of two-dimensional graphene in silica aerogel composite: Thermal resistance and heat node. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 699, 134632.
  8. Huang, M., Zhao, Y., Tang, G. H., Sun, Q., Yang, M., & Du, M. (2024). Toward improved optical transparency of silica nanofibrous aerogels. Solar Energy Materials and Solar Cells, 276, 113032.
  9. Ma, Y., Tang, G. H., & Hu, Y. (2024). Modelling of hollow-fiber doping in silica aerogel composites for radiative and conductive insulation under high temperatures. Applied Thermal Engineering, 254, 123917.
  10. Huang, W. S., Ning, H. Y., Li, N., Tang, G. H., Ma, Y., Li, Z., ... & Li, X. H. (2024). Thermal-hydraulic performance of TPMS-based regenerators in combined cycle aero-engine. Applied Thermal Engineering, 250, 123510.
  11. Zhao, X., & Tang, G. H. (2024). 0d/2d co-doping network enhancing thermal conductivity of radiative cooling film for electronic device thermal management. ACS Applied Materials & Interfaces, 16(29), 37853-37864.
  12. Li, X. L., Tang, G. H., Yang, D. L., & Fan, Y. H. (2024). Performance evaluation of heater and recuperator in Brayton cycles for power and energy storage. Applied Thermal Engineering, 244, 122739.
  13. Huang, J., Zhang, X. K., Yu, X., Tang, G. H., Wang, X., & Du, M. (2024). Scalable self-adaptive radiative cooling film through VO2-based switchable core–shell particles. Renewable Energy, 224, 120208.
  14. Yao, P., Yang, R., Sun, Q., Tang, G. H., Liu, X., Pu, J. H., & Du, M. (2024). Transparent photothermal films with high optical selectivity for anti/de-icing. Applied Thermal Engineering, 242, 122490.


Profile Details

WoS ResearcherID: E-5064-2012

https://orcid.org/0000-0002-7881-2573

https://gr.xjtu.edu.cn/web/ghtang

https://scholar.google.com/citations?user=4kXQNXoAAAAJ&hl=en

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