1）已发表SCI论文：

[1]Zhang Y, He SR, Jiang XH, et al. Full-scale three-dimensional simulation of air cooling metal bipolar plate proton exchange membrane fuel cell stack considering a non-isothermal multiphase model. Applied Energy 2024; 357. (中科院一区；IF=11.2，TOP期刊)

[2]Zhang Y, He SR, Jiang XH, et al. Performance evaluation on full-scale proton exchange membrane fuel cell: Mutual validation of one-dimensional, three-dimensional and experimental investigations. Energy Conversion and Management 2024; 299. (中科院一区；IF=10.4，TOP期刊)

[3]Zhang Y, He SR, Jiang XH, et al. Characteristics of proton exchange membrane fuel cell considering “dot matrix” gas distribution zones and waveform staggered flow field with cooling channels. Energy Conversion and Management 2022; 267. (中科院一区；IF=10.4，TOP期刊)

[4]Zhang Y, He SR, Jiang XH, et al. 3D multi-phase simulation of metal bipolar plate proton exchange membrane fuel cell stack with cooling flow field. Energy Conversion and Management 2022; 273. (中科院一区；IF=10.4，TOP期刊)

[5]Zhang Y, He SR, Jiang XH, et al. Investigation on performance of full-scale proton exchange membrane fuel cell: Porous foam flow field with integrated bipolar plate/gas diffusion layer. Energy 2024; 287. (中科院一区；IF=9，TOP期刊)

[6]Zhang Y, He SR, Jiang XH, et al. Performance and configuration optimization of proton exchange membrane fuel cell considering dual symmetric Tesla valve flow field. Energy 2024; 288. (中科院一区；IF=9，TOP期刊)

[7]Zhang Y, He SR, Jiang XH, et al. Three-dimensional multi-phase simulation of proton exchange membrane fuel cell performance considering constriction straight channel. Energy 2023; 267. (中科院一区；IF=9，TOP期刊)

[8]Zhang Y, He SR, Jiang XH, et al. Three-dimensional simulation of large-scale proton exchange membrane fuel cell considering the liquid water removal characteristics on the cathode side. International Journal of Hydrogen Energy 2023; 48 (27): 10160-10179. (中科院二区；IF=7.2)

[9]Zhang Y, He SR, Jiang XH, et al. Performance study on a large-scale proton exchange membrane fuel cell with cooling. International Journal of Hydrogen Energy 2022; 47 (18): 10381-10394. (中科院二区；IF=7.2)

[10]Zhang Y, He SR, Jiang XH, et al. Three-dimensional multi-phase simulation of different flow fields with cooling channel in proton exchange membrane fuel cell. International Journal of Hydrogen Energy 2022; 47 (89): 37929-37944. (中科院二区；IF=7.2)

[11]Zhang Y, He SR, Gu M, et al. 3D numerical simulation of metal bipolar plate proton exchange membrane fuel cell considering wavy interlaced flow field. Energy Technology 2023; 11 (8). (中科院四区；IF=3.8)

[12]Guo WC, Zhang Y, Jiang XH, et al. Improvement of stiffness during milling thin-walled workpiece based on mechanical/magnetorheological composite clamping. Journal of Manufacturing Processes 2021; 68: 1047-1059. (中科院一区；IF=6.2，TOP期刊)

[13]Jiang XH, Zhang Y, Lu WW, et al. Characteristics of shear stress based on magnetorheological fluid flexible fixture during milling of the thin-walled part. International Journal of Advanced Manufacturing Technology 2020; 108(7-8): 2607-2619. (中科院三区；IF=3.4)

2）国内外学术组织及重要学术期刊任职情况：

[1]担任期刊“Clean Energy Science and Technology”的青年编委；

[2]担任Appl. Energy, Energy Convers. Manage., Energy, Fuel, Int. J. Hydrogen Energy, Energy Technol., J. Manuf. Process., Int. J. Adv. Manu. Tech.等多个本领域国际著名期刊的审稿人。