主持“微等离子体阵列及用于太赫兹有源滤波的机理研究”国家自然科学面上基金，2020

主持“高频高压脉冲冲击下固体绝缘的局部放电特性与老化评估”台达基金，2018

主持“高频方波冲击下航空绝缘材料的局部放电特性与老化评估”科研基地创新基金，2017

主持“极微等离子体射流的放电机理与化学活性研究”国家自然科学青年基金，2017

主持"大气压高长径比、高密度极微等离子体的纳秒放电机理研究" 江苏省自然科学青年基金，2016

主持校引进人才科研启动基金，2015年

参与“等离子体与气流相互作用软件开发”国家自然科学基金委的重大研究计划‘空天飞行器的若干重大基础问题’，2015

1）南京航空航天大学‘长空之星’

2）自动化学院优秀青年骨干教师

3）发表SCI期刊论文50余篇，他引次数800余次。

4）在2015年ICOPS、2016年SACT国际会议、2017年中国电工技术学会学术年会,、2019 CIEEC国际会议上做邀请报告。

1. Journal Papers（近5年）

[25] Timothy Y. Chen, Aric C. Rousso, Shuqun Wu, Benjamin M Goldberg, Hendrikus Johannse van der Meiden, Yiguang Ju and Egemen Kolemen, Time-resolved characterization of plasma properties in a CH₄/He nanosecond-pulsed dielectric barrier discharge, Journal of Physics D: Applied Physics, 2019, accepted.

[24] Wu, S., Wu, F., Liu, C., Liu, X., Chen, Y., Shao, T., & Zhang, C. The effects of the tube diameter on the discharge ignition and the plasma properties of atmospheric‐pressure microplasma confined inside capillary. Plasma Processes and Polymers,16, e1800176, 2019

[23] Wu, S., Liu, X., Huang, G., Liu, C., Bian, W., & Zhang, C. (2019). Influence of high-voltage pulse parameters on the propagation of a plasma synthetic jet. Plasma Science and Technology.

[22] Shuqun Wu, Xueyuan Liu, Wenhao Mao, Wen Chen, Chang Liu, and Chaohai Zhang, Non-thermal air plasma jets at atmospheric pressure: The flow-dependent propagation in the afterglow, Journal of Applied Physics 124, 243302 (2018);

[21] Wu, S., Cheng, W., Huang, G., Wu, F., Liu, C., Liu, X., ... & Lu, X. (2018). Positive streamer corona, single filament, transient glow, dc glow, spark, and their transitions in atmospheric air. Physics of Plasmas, 25(12), 123507.

[20] Wu S, Wu F, Liu X, et al. A Bipolar DC-Driven Touchable Helium Plasma Jet Operated in Self-Pulsed Mode[J]. IEEE Transactions on Plasma Science, 2018. 46(12): 4091-4098..

[19] Wu, S., Wu, F., Liu, X., Chen, W., Liu, C., & Zhang, C. (2018). Investigation on the characteristics of an atmospheric-pressure microplasma plume confined inside a long capillary tube. Plasma Science and Technology. 2018, 20(10): 105402..

[18] Yue, Y., Pei, X., Gidon, D., Wu, F., Wu, S., & Lu, X. (2018). Investigation of plasma dynamics and spatially varying O and OH concentrations in atmospheric pressure plasma jets impinging on glass, water and metal substrates. Plasma Sources Science and Technology, 27(6), 064001.

[17] Yang, Y., Zhang, Y., Liao, Z., Pei, X., &Wu, S*. (2018). OH Radicals Distribution and Discharge Dynamics of an Atmospheric Pressure Plasma Jet Above Water Surface. IEEE Transactions on Radiation and Plasma Medical Sciences, 2(3), 223-228.

[16] Shuqun Wu, Xi Dong, Wenhao Mao, Jun Jiang, Yuanfu Yue,Xinpei Lu and Chaohai Zhang, Observation of the stratified glow mode inhelium/argon gas-confined barrier dischargeat atmospheric pressure, Plasma Sources Sci. Technol. 26 (2017) 09LT01.

[15] Shuqun Wu, Guowang Huang, Wenxin Cheng, Wen Chen, Bing Hai, Tao Shao, Chaohai Zhang. The influences of the electrode dimension andthe dielectric material on the breakdowncharacteristics of coplanar dielectric barrierdischarge in ambient air. Plasma Process Polym.2017;e1700112,DOI: 10.1002/ppap.201700112

[14] Shuqun Wu, Xi Dong, Wenhao Mao, Yuanfu Yue, Jun Jiang, Chaohai Zhang, and Xinpei Lu, Observations of a helium-air gas-confined barrier discharge operated in diffuse mode, Physics of Plasmas 24, 083512 (2017);

[13]Yan Lu, Shuqun Wu*, Wenxin Cheng, Xinpei Lu, Electric field measurements in atmospheric-pressure microplasma jet using Stark polarization emission spectroscopy of helium atom, Eur. Phys. J. Special Topics, 226, 2979–2989 (2017).

[12]吴淑群，董熙，裴学凯，岳远富，卢新培，基于激光诱导荧光法诊断大气压低温等离子体射流中OH自由基和O原子的时空分布，电工技术学报，2017,32（8）：82-96.

[11] Wu S, Gou J, Lu X, Tang M. A 3.4-μm-Sized Atmospheric-Pressure non-equilibrium microplasma array with high aspect ratio and high electron density[J]. IEEE Transactions on Plasma Science, 2016,44, 2632-2637.

[10] Wu S, Lu X, Yue Y, Dong X, and Pei X. Effects of the tube diameter on the propagation of helium plasma plume via electric field measurement, Physics of Plasmas 23, 103506 (2016)

[9] Wu S, Cao Y, Lu X. The State of the Art of Applications of Atmospheric-Pressure Nonequilibrium Plasma Jets in Dentistry[J]. IEEE Transactions on Plasma Science, 2016,44(2):134-151.

[8] Wu S, Duan J, Lu X. Effects of N-2/O-2 Additives on the Repeatability of the Dynamics of an Atmospheric-Pressure He Plasma Jet[J]. IEEE Transactions on Plasma Science, 2016,44(4SI1):398-404.

[7] 吴淑群，聂兰兰，卢新培. 大气压非平衡等离子体射流[J]. 高电压技术, 2015(08):2602-2624.

[6] Wu S, Xu H, Xian Y, et al. Propagation of plasma bullet in U-shape tubes[J]. AIP Advances, 2015,5(0271102).

[5] Wu S, Lu X. The role of residual charges in the repeatability of the dynamics of atmospheric pressure room temperature plasma plume[J]. Physics of Plasmas, 2014,21(12350912).

[4] Wu S, Lu X. Two counter-propagating He plasma plumes and ignition of a third plasma plume without external applied voltage[J]. Physics of Plasmas, 2014,21(0235012).

[3] Wu S, Lu X, Liu D, et al. Photo-ionization and residual electron effects in guided streamers[J]. Physics of Plasmas, 2014,21(10350810).

[2] Wu S, Lu X, Pan Y. On the mechanism of acceleration behavior of plasma bullet[J]. Physics of Plasmas, 2014,21(0735097).

[1] Wu S, Wang Z, Huang Q, et al. Dynamics of Mode Transition in Air Dielectric Barrier Discharge by Controlling Pressures[J]. IEEE Transactions on Plasma Science, 2014,42(10SI1):2342-2343.