代表期刊论文 :
目前累计发表论文40余篇,其中第一/通讯作者发表论文17篇。
[1] G. Chen, X. Jiang, Y. Li, J. Bai, S. W. A. Shah, Y. Gao, Y. Tang, S. Zhang, C. Pan. A highly efficient and sustainable heat sink via liquid film boiling in hybrid mesh with active liquid supply. Energ. Convers. Manage. 277 (2023) 116688. (中科院1区TOP,Q1,IF: 9.9)
[2] G. Chen, C. Yan, S. Yin, Y. Tang, W. Yuan, S. Zhang. Vapor-liquid coplanar structure enables high thermal conductive and extremely ultrathin vapor chamber. Energy. 301 (2024) 131689. (中科院1区TOP,Q1,IF: 9)
[3] G. Chen, D. Fan, S. Zhang, Y. Sun, G. Zhong, Z. Wang, Z. Wan, Y. Tang. Wicking capability evaluation of multilayer composite micromesh wicks for ultrathin two-phase heat transfer devices. Renew. Energ. 163 (2021) 921-929. (中科院1区TOP,Q1,IF: 9)
[4] G. Chen, Y. Tang, L. Duan, H. Tang, G. Zhong, Z. Wan, S. Zhang, T. Fu. Thermal performance enhancement of micro-grooved aluminum flat plate heat pipes applied in solar collectors. Renew. Energ. 146 (2020) 2234-2242. (中科院1区TOP,Q1,IF: 9)
[5] G. Chen, M. Jia, S. Zhang, Y. Tang, Z. Wan. Pool boiling enhancement of novel interconnected microchannels with reentrant cavities for high-power electronics cooling. Int. J. Heat Mass Tran. 156 (2020) 119836. (中科院2区TOP,Q1,IF: 5)
[6] G. Chen, Y. Tang, Z. Wan, G. Zhong, H. Tang, J. Zeng. Heat transfer characteristic of an ultra-thin flat plate heat pipe with surface-functional wicks for cooling electronics. Int. Commun. Heat Mass 100 (2019) 12-19. (中科院2区TOP,Q1,IF: 6.4)
[7] S. Zhang, D. Liu, H. Huang, C. Nie, Y. Tang, W. Yuan, G. Chen*. High performance and reliable ultra-thin vapor chamber via an optimised second vacuuming and sealing process. Appl. Therm. Eng. 241 (2024) 122318. (中科院2区TOP,Q1,IF: 6.1)
[8] S. Zhang, H. Liu, C. Shao, F. Yang, Z. Wang, Y. Tang, G. Chen*. High performance ultra-thin vapor chamber by reducing liquid film and enhancing capillary wicking. Appl. Therm. Eng. 245 (2024) 122813. (中科院2区TOP,Q1,IF: 6.1)
[9] K. Tang, M. Jia, G. Zhong, S. Chen, S. Zhang, W. Yuan, G. Chen*. Pool boiling heat transfer of dual-scale porous microchannel for high-power electronics cooling. Int. Commun. Heat Mass 138 (2022) 106339. (中科院2区TOP,Q1,IF: 6.4)
[10] L. Duan, Z. Wang, G. Chen*, Y. Tang, Y. Sun, G. Zhong, X. Xi, Y. Xu. Capillary wicking in double-scale composite microgroove wicks for copper-aluminum composite vapor chambers. Int. Commun. Heat Mass 126 (2021) 105449. (中科院2区TOP,Q1,IF: 6.4)
[11] S. Zhang, C. Chen, G. Chen*, Y. Sun, Y. Tang, Z. Wang. Capillary performance characterization of porous sintered stainless steel powder wicks for stainless steel heat pipes. Int. Commun. Heat Mass 116 (2020) 104702. (中科院2区TOP,Q1,IF: 6.4)
[12] S. Zhang1, G. Chen1, X. Jiang, Y. Li, S.W.A. Shah, Y. Tang, Z. Wang, C. Pan. Hierarchical gradient mesh surfaces for superior boiling heat transfer. Appl. Therm. Eng. 219 (2023) 119513. (中科院2区TOP,Q1,IF: 6.1)
[13] X. Yuan, C. Yan*, Y. Huang, Y. Tang, S. Zhang, G. Chen*. Fabrication and capillary performance of multi-scale microgroove ceramic wicks via nanosecond laser irradiation for ultrathin ceramic heat pipes. Appl. Therm. Eng. 236 (2024) 121927. (中科院2区TOP,Q1,IF: 6.1)
[14] X. Yuan, C. Yan, Y. Huang, Y. Tang, G. Chen*, S. Zhang*. High-performance bioinspired hierarchical microgroove wick for ceramic vapor chambers achieved by nanosecond pulsed lasers. Langmuir 40 (2024) 11914−11926. (中科院2区,Q2,IF: 3.7)
[15] K. Tang, J. Bai, S. Chen, S. Zhang, J. Li, Y. Sun, G. Chen*. Pool boiling performance of multilayer micromeshes for commercial high-power cooling. Micromachines. 12 (2021) 980. (中科院3区,Q3,IF: 3.0)
[16] 陈恭, 汤勇, 张仕伟*, 钟桂生, 孙亚隆, 李杰. 超薄均热板的研究现状及发展趋势. 机械工程学报 58 (2022) 197-212. (EI,机械工程领域中文顶刊)
[17] 汤勇, 王志威, 陈恭*, 张仕伟, 袁伟. 摆线齿轮低成本冷精整加工关键工艺研究. 机械工程学报. 58 (2022) 154-160. (EI,机械工程领域中文顶刊)