1.校拨经费，复旦大学医工结合项目，多光源-跨模态龋齿检测系统的研发和应用，2023年12月-2024年12月，在研，主持。

2.校拨经费，复旦大学人才引进经费，2023年2月-2029年2月，在研，主持。

3.校拨经费，复旦大学综合繁荣项目，光电人机交互平台建设，2023年12月-2024年12月，在研，参与。

4.常州市重大技术需求“揭榜挂帅”科技攻关项目，新能源汽车用 SiC MOSFET功率器件和模块关键技术研发，在研，子课题负责人。

5.中荷国际合作项目，High performance devices based on advanced materials (2DMat)，2015年9月-2020年6月，结题，主持。

6.瑞士国家科学基金项目，Photogating of graphene for electrokinetic energy harvesting and active plasmonic devices，2020年1月-2023年12月，结题，参与。

7.国家科技部，863计划子课题，2015AA03A101，第三代半导体封装和系统失效机理与可靠性快速寿命方法研究，2015年1月至 2017年12月，结题，参与。

8.国家科技部，863计划重点项目，2015AA033301，基于高性能基板的第三代半导体封装技术研究，2015年3月至 2016年7月，结题，参与。

期刊论文

1.Tang, H., Anwar T., Jang M., and Tagliabue G., Light-Intensity Switching of Graphene/WSe2 Synaptic Devices. Advanced Science. Accepted. (IF=17.521)

2.Tang, H., Menabde, S., Anwar T., Kim J., Jang M., and Tagliabue G., Photo-modulated optical and electrical properties of graphene, Nanophotonics, 2022, 11(5): 917–940. (IF=8.449)

3.Tang, H., Gao, C., Yang, H., Sacco, L.N., Sokolovskij, R., Zheng, H., Ye, H., Vollebregt, S., Yu, H., Fan, X. and Zhang, G., Room temperature ppt-level NO2 gas sensor based on SnOx/SnS nanostructures with rich oxygen vacancies. 2D Materials. 2021, 8(4), pp.045006. (IF=7.103)

4.Tang, H., Hu, D., Cui Z., Ye, H., and Zhang, G., Effects of Defect and Temperature on the Mechanical Performance of WS2: A Multiscale Analysis. The Journal of Physical Chemistry C, 2021,125 (4), pp.2680-2690. (IF=4.126)

5.Tang, H., Sacco, L.N., Vollebregt, S., Ye, H., Fan, X. and Zhang, G., Recent advances in 2D/nanostructured metal sulfide-based gas sensors: mechanisms, applications, and perspectives. Journal of Materials Chemistry A, 2020, 8, pp.24943-24976. (IF=14.511)

6.Tang, H., Li, Y., Sokolovskij, R., Sacco, L., Zheng, H.Z., Ye, H.Y., Yu, H.Y., Fan, X., Ren, T.L. and Zhang, G., Ultra-high Sensitive NO2 Gas Sensor based on Tunable Polarity Transport in CVD-WS2/IGZO p-N Heterojunction. ACS applied materials & interfaces, 2019, 11(43), pp.40850-40859. (IF=10.383)

7.Tang, H., Li, Y., Ye, H., Gao, C., Tao, L.Q., Tu, T., Gou, G., Chen, X., Fan, X., Ren, T.L. and Zhang, G., High-performance humidity sensor using Schottky-contacted SnS nanoflakes for noncontact healthcare monitoring. Nanotechnology, 2019, 31(5). (IF=3.874)

8.Tang, H., Tan, C., Yang, H., Zheng, K., Li, Y., Ye, H., Chen, X., Fan, X., Ren, T. and Zhang, G., Tunable electronic and optical properties of the WS2/IGZO heterostructure via an external electric field and strain: a theoretical study. Physical Chemistry Chemical Physics, 2019, 21(27), pp.14713-14721. (IF=3.945)

9.Tang, H., Qu, Z., Wang, L., Ye, H., Fan, X. and Zhang, G., Liquid-phase exfoliated SnS as a semiconductor coating filler to enhance corrosion protection performance. Physical Chemistry Chemical Physics, 2019, 21(33), pp.18179-18187. (IF=3.945)

10.Qu, Z., # Wang, L., # Tang, H., # Ye, H. and Li, M., Effect of Nano-SnS and Nano-MoS2 on the Corrosion Protection Performance of the Polyvinylbutyral and Zinc-Rich Polyvinylbutyral Coatings. Nanomaterials, 2019, 9(7), pp.956. (IF=5.719)

11.Tang, H., Ye, H., Wong, C.K., Leung, S.Y., Fan, J., Chen, X., Fan, X. and Zhang, G., Overdriving reliability of chip scale packaged LEDs: Quantitatively analyzing the impact of component. Microelectronics Reliability, 2017, 78, pp.197-204. (IF=1.992)

12.Tang, H., Ye, H., Chen, X., Qian, C., Fan, X. and Zhang, G.Q., Numerical thermal analysis and optimization of multi-chip LED module using response surface methodology and genetic algorithm. IEEE Access, 2017, 5 (5), pp.16459-16468. (IF=3.476)

13.Zhu X.#, Liu W#, Sheng C., Cong, C., Chen,X., Tang, H., Li, S., Chu,J. and Zhang R. J.*, Toward Broadband Photodetection: Band Alignment and Interlayer Charge Transfer in 2D-TMDs/3D-Ga2O3 Hybrid-dimensional Heterostructures, ACS Appl. Mater. Interfaces, 2024, March, https://doi.org/10.1021/acsami.3c17016 (IF=10.383)

14.Liu W., Zhu, X., Ding, Y., Tang, H., Xu, P., Huang, T., Zheng, Y., Chen, X., and Zhang R. J.*. Toward deeper ultraviolet detection: Atomic layer deposited amorphous AlGaOx thin film detector with its tunable optical properties and opto-electronic responses, Ceramics International, 2024, March, online, doi: 10.1016/j.ceramint.2024.03.110 (IF=5.2)

15.Liu, S., Zhu, X., Tang, H., Cong, C., Luo, S., Luo, Y., Zheng, Y., Chen. L., Zhang, Z., and Zhang R. J.*. Demystifying the Modulation Effects of the Graphene Transport Layers on the Interlayer Charge Transfer Mechanism and Broadband Optical Properties of MoS2/Graphene/WSe2 van der Waals Heterojunctions. Surfaces and Interfaces, 2024, 47, pp.104189 (IF=6.137)

16.Guo, B., Wen, M., Tang, H., Lishik, S., Fan, X., Zhang, G., Fan, J.*. Revealing The Degradation Mechanism of (Sr,Ca)AlSiN3:Eu2+ Phosphor Aged Under Thermal-Moisture-Sulfur Conditions: A Combined Experimental and Ab Initio Study, Laser & Photonics Reviews, 2024, 2300838 (IF=11.0)

17.Li, W., Chen, W., Jiang, J., Tang, H., Zhang, G., Fan, J.*. Double-sided numerical thermal modeling of fan-out panel-level MOSFET power modules, Case Studies in Thermal Engineering, 2023, 52, pp.103763 (IF=6.8)

18.Hu, F., Tang, H. Tan, C., Ye, H., Chen, X. and Zhang, G.,Nitrogen Dioxide Gas Sensor Based on Monolayer SnS: A First-Principle Study. IEEE ELECTRON DEVICE LETTERS, 2017, 38(7), (IF=4.187)

19.Ye, H., Hu, F., Tang, H., Yang, W., Chen, X., Wang, G. and Zhang, G., Germanene on single-layer ZnSe substrate: novel electronic and optical properties. Physical Chemistry Chemical Physics, 2018, 20, pp.16067-16076. (IF=3.945)

20.Qian, C., Gheitaghy, A.M., Fan, J., Tang, H., Sun, B., Ye, H. and Zhang, G., 2018. Thermal management on IGBT power electronic devices and modules. IEEE Access, 2018, 6, pp.12868-12884. (IF=3.476)

会议论文

1.Tang, H.,* Shi, W., Zhang R. J., Fan, J. and Zhang, G.Q., Effects of natural and thermal oxidation on electronic and optical properties of monolayer WS2: a theoretical study, EuroSimE 2024, April 7-10, 2024, Sicily, Italy.

2.Tian, J., Tang, Z., Tang, H.,* Fan, J.* and Zhang, G.Q., Simulation of epitaxial growth of silicon carbide in a horizontal hot-wall CVD reaction chamber, IFWS&SSLCHINA 2023, November 27-30, 2023, Xiamen, China.

3.Tian, J., Tang, Z., Tang, H., Fan, J.* and Zhang, G.Q., Optimizing Temperature and Flow Fields of 4H-SiC Epitaxial Growth by Integrating CFD Simulation with Multi-objective Particle Swarm Optimization, ICEPT 2023, August 8-11, Shihezi, China.

4.Tang, H., and Tagliabue G. Tunable photoconductive devices based on graphene/WSe2 heterostructures, European Optical Society Annual Meeting (EOSAM 2022), September 12-16, Porto, Portugal.

5.Qu, Z.,# Tang, H.,#* Ye, H., Fan, X. and Zhang, G., Electrical and optical characterization of MoS2 thin film transistors and the effect of strain on their performances. EuroSimE 2019. March 24-27, 2019, Hannover, Germany.

6.Tang, H., Ye, H., Chen, X., Fan, X. and Zhang, G., Thermal conductivity of functionalized graphene-polymer nanocomposite: A non-equilibrium molecular dynamics study. EuroSimE 2017. April 2-5, 2017, Dresden, Germany.

7.Tang, H., Ye, H., Wang, M., Fan, X. and Zhang, G., 2016, August. Thermal analysis and optimization of IGBT power electronic module based on layout model. In 2016 17th International Conference on Electronic Packaging Technology (ICEPT). August 16-19, 2016, Wuhan, China.

8.Tang, H., Yang, D., Zhang, G.Q., Liang, Zhang, Z. and Cai, M., 2012, August. Multi-physics modeling of LED-based luminaires under temperature and humidity environment. In 2012 13th ICEPT-HDP. August 16-19, 2012, Guilin, China. (“Cisco Best Student Paper Award”)

*通讯作者 #共同作者

专利申请

已授权专利：

1.唐红雨;樊嘉杰;叶怀宇;樊学军;张国旗. 一种多功能气敏动态测试装置，实用新型，中国，专利申请号：CN201821778552.5，已授权。

2.唐红雨;李磊;祁高进;方涛;樊嘉杰;钱诚;王明明;樊学军;张国旗. 一种高效稳定的紫外净化系统，实用新型，中国，专利申请号：CN201721430713.7，已授权，已权利转移。

3.唐红雨; 樊嘉杰; 樊学军; 张国旗 ; 一种电热式针灸针用消毒装置, 实用新型，中国，专利申请号：CN201821778571.8，已授权。

4.唐红雨;叶怀宇;罗亮亮;钱诚;王明明;樊学军;张国旗.一种免封装器件的紫外固化压膜装置，实用新型，中国，专利申请号：CN201620762970.X，已授权。

5.唐红雨;钱诚;叶怀宇;樊学军;张国旗. 一种材料光热转换效率测试平台, 实用新型，中国，专利申请号：CN201620957676.4，已授权。

6.唐红雨;梁润园;张国旗.用于柔性显示器件的温度测量系统. 实用新型，中国，专利申请号：CN201521129270.9，已授权。

待授权专利：

1.唐红雨;张清纯;张国旗.一种基于氮化硼的碳化硅栅极介电层及其制备方法与应用, 发明专利申请号202311333461.6,20231016