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[46] Qiang Fu, Yufei Wang, Zhengshi Chang*. Study on the conversion mechanism of CO2 to O2 in pulse voltage dielectric barrier discharge at Martian pressure[J]. Journal of CO2 Utilization. 2023, 70(4): 102430. (SCI: 000950631400001, EI: 20231213748949) (IF: 8.321)

[45] Yuxi Chen, Yajing Dong, Ye Tian, Zhengshi Chang*. Study on the effect of plasma drying and sterilization of pepper seeds[J]. Drying Technology. 2023, 71: 115204. (SCI: 000919140800001, EI: 20230513468914) (IF: 3.556)

[44] 付强, 王聪, 王语菲, 常正实*. 正弦交流电压驱动低气压CO2放电特性的对比研究:DBD结构与裸电极结构[J]. 物理学报. 2022, 71(11): 115204. (SCI: 000814074300003, EI: 20222412236637)

Fu Qiang, Wang Cong, Wang Yu-Fei, Chang Zheng-Shi. Comparative study on discharge characteristics of low pressure CO2 driven by sinusoidal AC voltage: DBD and bare electrode structure. Acta Phys. Sin., 2022, 71(11): 115204. (SCI: 000814074300003, EI: 20222412236637)

[43] 朱彦熔, 常正实*. 脉冲电压上升沿对He大气压等离子体射流管内放电发展演化特性的影响[J]. 物理学报. 2022, 71 (2): 025202. (SCI: 000775663400022, EI: 20220611600151)

Yanrong Zhu, Zhengshi Chang. Effects of pulse voltage rising edge on discharge evolution of He atmospheric pressure plasma jet in dielectric tube[J]. Acta Phys. Sin. 2022, 71 (2): 025202. (SCI: 000775663400022, EI: 20220611600151)

[42] Ni Zhao, Huan Yang, Congwei Yao, Chuang Wang, Chi Chen, Jian Dang, Xiaoping Yang, Zhengshi Chang*. Effects of dielectric constant and secondary electron emission coefficient on discharge characteristics and products of Ar/NH3 DBD[J]. Physics of Plasmas. 2022, 29(3): 033512. (SCI: 000782115600002, EI: 20221511943783)

[41] Cong Wang, Qiang Fu, Zhengshi Chang*, Guanjun Zhang. Investigation on the products distribution, reaction pathway, and discharge mechanism of low-pressure CO2 discharge by employing a 1D simulation model[J]. Plasma Processes and Polymers. 2021, e2000228(pp17). (SCI: 000635664100001, EI: 20211410164586) (Inside Front Cover)

[40] Guoqiang Li, Xi Chen, Yanrong Zhu, Honglin Guo, Ni Zhao, Zhengshi Chang*. Insight into the Effect of He APPJ on LDPE Surface by Fixed-pointed Treatment[J]. Journal of Physics D: Applied Physics. 2021, 54(28): 285204. (SCI: 000647279300001, EI: 20211910336740)

[39] Xingyu Chen, Sile Chen, Bo Zhang, Guoqiang Li, Zhengshi Chang, Guan-Jun Zhang*. Promotion of epoxy resin surface electrical insulation performance and its stability by atmospheric fluorocarbon dielectric barrier discharge[J]. IEEE Transactions on Dielectrics and Electrical Insulation. 2020, 27(6): 1973-1981. (SCI: 000600291900023; EI: 20205209683743)

[38] 王聪, 叶田园, 赵越阳, 常正实*. 电压和频率对CO2介质阻挡放电特性影响的研究[J]. 航天器环境工程. 2020, 37(6): 610-616.

[37] 朱彦熔, 李国强, 常正实*. 纳秒脉冲氦气等离子体射流的光电特性分析[J]. 现代应用物理. 2020, 11(3): 32-41.

[36] Zhengshi Chang*, Cong Wang, Guanjun Zhang*. Progress in degradation of Volatile Organic Compounds based on low temperature plasma technology[J]. Plasma Processes and Polymers. 2020, 17(4): e1900131. (SCI: 000523485400012; EI: 20200408065910) (Outside Front Cover)

[35] Cong Wang, Congwei Yao, Zhengshi Chang*, Guanjun Zhang*. Numerical simulation of discharge mode conversion with multiple current pulse (MCP) in atmospheric pressure He/N2 dielectric barrier discharge[J]. Physics of Plasmas. 2019, 26(12): 123506. (SCI: 000505578200022; EI: 20195007797026)

[34] 王世强, 王聪, 马恒驰, 刘全桢, 唐诗雅, 常正实, 张冠军. 施加电压和放电单元数对柱状阵列式介质阻挡放电特性的影响, 高压电器, 2019, 55(10): 0128-0133.

[33] Congwei Yao, Sile Chen, Zhengshi Chang, Hai-Bao Mu and Guan-Jun Zhang. Atmospheric Pressure DBD Involving Ion-induced Secondary Electron Emission Controlled by Dielectric Surface Charges[J]. Journal of Physics D: Applied Physics. 2019, 52(45): 455202. (SCI: 000482601400001; EI: 20193907469509)

[32] Congwei Yao, Sile Chen, Guimin Xu, Zhengshi Chang*, Haibao Mu, Anbang Sun, Guan-Jun Zhang. Transition from glow-like to streamer-like discharge in atmospheric pressure dielectric barrier discharge controlled by variable dielectric surface layer permittivity[J]. Physics of Plasmas. 2019, 26(6): 060702. (SCI: 000474440600063; EI: 20192507073489)

[31] Zhengshi Chang*, Guoqiang Li, Jinren Liu, Congwei Yao, Dehui Xu, Xinming Shi, Guanjun Zhang. Inhibitory effect of non-thermal plasma synergistic tegafur on pancreatic tumor cell line BxPc-3 proliferation[J]. Plasma Processes and Polymers. 2019, 16(3): e1800165 (pp10). (Back Cover) (SCI: 000459006500005; EI: 20190206351135)

[30] Sile Chen, Xingyu Chen, Jiaye Wen, Congwei Yao, Guimin Xu, Yuan Li, Zhengshi Chang, Guan-Jun Zhang. Primary and secondary discharges in an atmospheric pressure plasma jet fed with helium and tetrafluoromethane mixtures[J]. Physics of Plasmas. 2019, 26(1): 010703. (SCI: 000457410900004; EI: 20190506450292)

[29] Sile Chen, Xingyu Chen, Congwei Yao, Guimin Xu, Zhengshi Chang, Guan-Jun Zhang*. Electrical and spectral characterization of an atmospheric pressure He/CF4 plasma jet[J]. Physics of Plasmas. 2018, 25(8): 083510. (SCI: 000443730900109; EI: 20183405712474)

[28] Amita Brime, Zhengshi Chang, Ni Zhao, V.S. Santosh K. Kondeti, Peter J Bruggeman*. Penetration of Ar and He RF-driven plasma jets into micrometer sized capillary tubes[J]. Journal of Physics D: Applied Physics. 2018, 51(41): 414002. (SCI: 000442638400001; EI: 20183805837019)

[27] Zhengshi Chang*, Ni Zhao, Guoqiang Li, Guanjun Zhang*. Plasma “bullet” with hollow structure: formation and evolution[J]. Scientific Reports. 2018, 8: 7599 (10). (SCI: 000432109500002)

[26] Han-Wei Li, An-Bang Sun*, Xing Zhang, Cong-Wei Yao, Zheng-Shi Chang*, Zhang Guan-Jun. Three-dimensional PIC/MCC numerical study on the initial process of streamer discharge in a needle-plate electrode in atmospheric air[J]. ACTA PHYSICA SINICA. 2018, 67(4): 045101. (SCI: 000428113200016; EI: 000428113200016)

[25] Congwei Yao, Sile Chen, Shuai Wang, Zhengshi Chang*, Anbang Sun, Haibao Mu, Guan-Jun Zhang*. Characteristics of atmospheric Ar/NH3 DBD and its comparison with He/N2 DBD[J]. Journal of Physics D: Applied Physics. 2018, 51(22): 225201. (SCI: 000431750400001; EI: 20182105228440)

[24] Haibao Mu*, Yihao Guo, Congwei Yao, Zhanhao Jia, Zhengshi Chang, Guanjun Zhang. Effect of aluminum nitride on discharge mode transition in atmospheric pressure He/O2 DBD[J]. IEEE Transactions on Plasma Science. 2018, 46(4): 888-894. (SCI: 000429969500006; EI: 20181204918601)

[23] Meng Xin, Zhengshi Chang, Haiyun Luo, Rong Zeng, Guanjun Zhang, Qingquan Lei*. An electrical super-insulator prototype of 1D gas-solid Al2O3 nanocell[J]. Nano Energy. 2017, 39: 95–100. (IF=16.602) (SCI: 000408878200011; EI: 20172703887070).

[22] Congwei Yao, Zhengshi Chang*, Sile Chen, Hengchi Ma, Haibao Mu, and Guan-Jun Zhang*. Comparative Simulation Analysis on the Ignition of Atmospheric He and Ar Dielectric Barrier Discharge Driven by 22 kHz Sinusoidal Voltage[J]. Physics of Plasmas. 2017, 24(9): 093505-1-8. (SCI: 000412107400095; EI: 20173304047134)

[21] Sile Chen, Shuai Wang, Yibo Wang, Baohong Guo, Guoqiang Li, Zhengshi Chang, Guan-Jun Zhang*. Surface Modification of Epoxy Resin using He/CF4 Atmospheric Pressure Plasma Jet for Flashover Withstanding Characteristics Improvement in Vacuum[J]. Applied Surface Science. 2017, 414: 107–113. (SCI: 000402216000014; EI: 20171703596196).

[20] 姚聪伟, 常正实*, 王世强, 刘全桢, 穆海宝, 张冠军*, 胡海燕. 不同电源频率下大气压平板型介质阻挡放电特性的实验研究[J], 高电压技术. 2017, 43(6): 1837-1844. (EI: 20173504103820).

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Congwei Yao, Hengchi Ma, Zhengshi Chang*, Ping Li, Haibao Mu, Guanjun Zhang*. Simulations of the cathode falling characteristics and its influence factors in atmospheric pressure dielectric barrier glow discharge pulse[J]. ACTA PHYSICA SINICA. 2017, 66(2): 025203. (SCI: 000397107800027; EI: 20170603332897).

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[15] Gui-Min Xu, Xing-Min Shi, Jing-Fen Cai, Si-Le Chen, Ping Li, Cong-Wei Yao, Zheng-Shi Chang, Guan-Jun Zhang*, Dual effects of atmospheric pressure plasma jet on skin wound healing of mice[J]. Wound Repair and Regeneration. 2015, 23(6): 878-884. (SCI: 000365725100010).

[14] Xingmin Shi, Wenlong Liao, Zhengshi Chang, Guanjun Zhang*, et al., Inactivation effect of low-temperature plasma on pseudomonas aeruginosa for nosocomial anti-infection[J]. IEEE Transactions on Plasma Science. 2015, 43(9): 3211-3218. (SCI: 000361529600012; EI: 20153601242317).

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[2]   Zhengshi Chang, Guanjun Zhang*, Xianjun Shao, Zenghui Zhang. Diagnosis of gas temperature, electron temperature, and electron density in helium atmospheric pressure plasma jet[J]. Physics of plasmas. 2012, 19(7): 073513(5) (SCI: 000307422800119; EI: 20124015530267).

[1]   常正实, 邵先军, 张冠军*. 基于OH基团二级光谱的氩大气压等离子体射流温度诊断[J]. 高电压技术. 2012, 38(7): 1736-1741. (EI: 20123615396272).