硕士生导师。2011年毕业于吉林大学，获得学士学位；2017年毕业于上海交通大学，获得博士学位(导师郭小军教授)。2017.12-2020.6年任上海交通大学电子信息与电气工程学院思政教师(讲师)，期间继续从事研究工作(“双肩挑”)。2020.6年加入上海交通大学电子工程系，2023.1任副研究员。曾于2014-2015及2019-2020在香港理工大学Feng Yan教授课题组从事研究工作。

目前已发表论文50余篇，其中以第一/通讯作者在npj Flexible Electronics, IEEE Electron Device Letters和Advanced Electronic Materials等国际主流学术期刊发表SCI论文10余篇, IEDM会议论文1篇。参加国际学术会议并陈述口头报告4次。授权中国专利10余项，美国专利2项。担任IEEE CAD-TFT会议TPC委员。

半导体器件

集成电路

显示技术

智慧农业

1. 薄膜晶体管三维集成技术

2. 半导体生物化学传感芯片

3. 健康预警与即时检测技术

1. Z. Shi#, F. Chang#, Y.Jia, J. Li, Y. Qiu, J. Miao, W. Jiang, X. Guo, X. Han*, W. Tang*, "Classifying and Understanding of Dairy Cattle Health Using Wearable Inertial Sensors with Random Forest and Explainable Artificial Intelligence," IEEE Sensors Letters, 2024, 8 (3): 1-4.

2. H. Yu, H. Zhang, Z. Liu, L. Feng, Y. Su, J. Li*, W. Tang*, and F. Yan*, "Recent advances in field-effect transistor-based biosensors for label-free detection of sars-cov-2," Small Sci., p. 2300058, 2024.
   

3. Y. Jia#, F. Chang#, Z. Shi, W. Jiang, X. Han*, W. Tang*, Behavior-Based Classification of Dairy Cattle Health from Inertial Sensor Data Using Correlation Analysis and Machine Learning, in 2023 International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligence (ICSMD), 2023, pp 1-5.

4. Z. Shi, Z. Zhang, Y. Jia, J. Li, X. Wang, Y. Qiu, J. Miao, F. Chang*, X. Han*, W. Tang*, "Internet-of- things behavior monitoring system based on wearable inertial sensors for classifying dairy cattle health using machine learning," in 2023 IEEE International Conference on Artificial Intelligence in Engineering and Technology (IICAIET), 2023, pp. 277-282.
   

5. X. Xi#, W. Tang#, D. Wu, C. Shen, W. Ji, J. Li, Y. Su, X. Guo, R. Liu*, F. Yan*, All-carbon solution-gated transistor with low operating voltages for highly selective and stable dopamine sensing, ACS Sensors, 8(3): 1211-1219, 2023.

6. Y. Song, W. Tang*, L. Han, Y. Liu, C. Shen, X. Yin, B. Ouyang, Y. Su*, and X. Guo*, Integration of nanomaterial sensing layers on printable organic field effect transistors for highly sensitive and stable biochemical signal conversion, Nanoscale, 15(12): 5537-5559, 2023. (Review paper)

7. W. Tang#, Z. Lin#, Z. Wang#, Z. Lin, L. Feng, Z. Liu, X. Li, P. D. Ye, X. Guo*, M. Si*, Monolithic 3D Integration of Vertically Stacked CMOS Devices and Circuits with High-Mobility Atomic-Layer-Deposited In2O3 n-FET and Polycrystalline Si p-FET: Achieving Large Noise Margin and High Voltage Gain of 134 V/V, in 2022 IEEE International Electron Devices Meeting (IEDM), 2022.
   
8. W. Tang#, Y. Fu#, Y. Huang, Y. Li, Y. Song, X. Xi, Y. Yu, Y. Su, F. Yan*, X. Guo*. Solution processed low power organic field-effect transistor bio-chemical sensor of high transconductance efficiency, npj Flex. Electron., 6(18):1-18, 2022.
9. Y. Tang, W. Tang*, Y. Song, L. Han, Y. Huang, R. Liu, Y. Su, and X. Guo*, Low-temperature packaging of ion-sensitive organic field-effect transistors on plastic for multiple ion detection. IEEE J. Electron Devices Soc. 9:1237-1242, 2021.
10. L. Han, S. Chen, L. a. Deng, Y. Song, Y. Huang, S. Li, M. Li, W. Tang*, Y. Su, and X. Guo*, Through-plastic-via three-dimensional integration for integrated organic field-effect transistor bio-chemical sensor chip. IEEE Electron Device Lett. 42(4), 569-572, 2021.
11. S. Guo, S. Li, T. Shen, W. Tang*, X. Guo, J. Xin, J. Jin, H. Wei, X. Wang*, and J. Li*, Fröhlich polaron effect in flexible low-voltage organic thin-film transistors gated with high-k polymer dielectrics. J. Phys. D: Appl. Phys. 54(44), 444001, 2021.
12. W. Tang, Y. Huang, L. Han, R. Liu, Y. Su, X. Guo*, F. Yan*, Recent progress in printable organic field effect transistors, J. Mater. Chem. C, 7 (4): 790-808, 2019. (Review paper)
13. W. Tang, J. Zhao, Y. Huang, L. Ding, Q. Li, J. Li, P. You, F. Yan, X. Guo*, Bias stress stability improvement in solution-processed low-voltage organic field-effect transistors using relaxor ferroelectric polymer gate dielectric, IEEE Electron Device Lett., 38 (6): 748-751, 2017.
14. W. Tang, C. Jiang, Q. Li, W. Hu, L. Feng, Y. Huang, J. Zhao, S. Chen, X. Guo*, Low-voltage pH sensor tag based on all solution processed organic field-effect transistor, IEEE Electron Device Lett., 37 (8): 1002-1005, 2016.
15. W. Tang#, L. Feng#, P. Yu, J. Zhao, X. Guo*, Highly efficient all-solution-processed low-voltage organic transistor with a micrometer-thick low-k polymer gate dielectric layer, Adv. Electron. Mater., 2 (5): 1500454, 2016.
16. W. Tang, J. Zhao, L. Feng, P. Yu, W. Zhang, X. Guo*, Top-gate dry-etching patterned polymer thin-film transistors with a protective layer on top of the channel, IEEE Electron Device Lett., 36 (1): 59-61, 2015.
17. W. Tang, J. Li, J. Zhao, W. Zhang, F. Yan, X. Guo*, High-performance solution-processed low-voltage polymer thin-film transistors with low-k/high-k bilayer gate dielectric, IEEE Electron Device Lett., 36 (9): 950-952, 2015.
18. W. Tang, L. Feng, J. Zhao, Q. Cui, S. Chen, X. Guo*, Inkjet printed fine silver electrodes for all-solution-processed low-voltage organic thin film transistors, J. Mater. Chem. C, 2 (11): 1995-2000, 2014.
19. W. Tang, L. Feng, C. Jiang, G. Yao, J. Zhao, Q. Cui, X. Guo*, Controlling the surface wettability of the polymer dielectric for improved resolution of inkjet-printed electrodes and patterned channel regions in low-voltage solution-processed organic thin film transistors, J. Mater. Chem. C, 2 (28): 5553-5558, 2014.