[1] Shao Tao, Zhang Cheng, Long Kaihua et al. Surface modification of polyimide films using unipolar nanosecond-pulse DBD in atmospheric air[J]. Applied Surface Science, 256, 3888-3894(2010).
[2] Chen Bingyan, Liu Changyu, Wan Lianghao. Surface modification characteristics for morphology and wetting of white pine wood by using positive and negative corona discharge[J]. High Voltage Engineering, 47, 786-795(2021).
[3] Li Li, Peng Mingyang, Teng Yun. Surface modification of nylon fiber using atmospheric repetitive nanosecond pulse discharge[J]. High Voltage Engineering, 42, 753-761(2016).
[4] Yao Chenguo, Guo Fei, Dong Shoulong. Treatment effect assessment of A375 cell subcutaneous transplantable tumor in nude mouse with nanosecond pulsed electric fields[J]. High Voltage Engineering, 39, 117-121(2013).
[5] Gad A, Jayaram S H. Effect of electric pulse parameters on releasing metallic particles from stainless steel electrodes during PEF processing of milk[J]. IEEE Transactions on Industry Applications, 50, 1402-1409(2014).
[6] Rao Junfeng, Lei Yang, Jiang Song et al. All solid-state rectangular sub-microsecond pulse generator for water treatment application[J]. IEEE Transactions on Plasma Science, 46, 3359-3363(2018).
[7] Wei Linsheng, Yuan Dingkun, Zhang Yafang et al. Experimental and theoretical study of ozone generation in pulsed positive dielectric barrier discharge[J]. Vacuum, 104, 61-64(2014).
[8] Tang Tao, Wang Fei, Kuthi A et al. Diode opening switch based nanosecond high voltage pulse generators for biological and medical applications[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 14, 878-883(2007).
[9] Achour Y, Starzyński J, Rąbkowski J. Modular Marx generator based on SiC-MOSFET generating adjustable rectangular pulses[J]. Energies, 14, 3492(2021).
[10] Rao Junfeng, Zhang Rui, Shi Fukun et al. A high voltage solid state Marx generator with adjustable pulse edges[J]. High Voltage, 8, 878-888(2023).
[11] Baker R J, Johnson B P. Series operation of power MOSFETs for high-speed, high-voltage switching applications[J]. Review of Scientific Instruments, 64, 1655-1656(1993).
[12] Hess H L, Baker R J. Transformerless capacitive coupling of gate signals for series operation of power MOS devices[J]. IEEE Transactions on Power Electronics, 15, 923-930(2000).
[13] Li Rong, Qi Rong. The design of new compact Marx generator[J]. Chinese Journal of Electronics, 27, 1305-1308(2018).
[14] Zeng Weirong, Yao Chenguo, Dong Shoulong et al. Self-triggering high-frequency nanosecond pulse generator[J]. IEEE Transactions on Power Electronics, 35, 8002-8012(2020).
[15] Rao Junfeng, Wang Wenchao, Shi Fukun. A self-triggering bipolar pulse adder[J]. High Voltage Engineering, 49, 3258-3267(2023).
[16] Rao Junfeng, Li Encheng, Wang Yonggang. Self-triggering all-solid-state Marx generator[J]. High Power Laser and Particle Beams, 33, 025001(2021).
[17] Chen Jie, Liang Hua, Wei Biao. Discharge characteristics of surface dielectric barrier discharge driven by parameterized nanosecond pulsed power supply[J]. High Voltage Engineering, 45, 3365-3374(2019).
[18] Li Mengyao, Wang Xinyun, Zhao Yulei. Influence of nanosecond pulse voltage amplitude and rising/falling edge time on the uniformity of atmospheric pressure N2 DBD[J]. High Voltage Engineering, 50, 852-860(2024).
[19] Jayant Baliga B. Fundamentals of power semiconduct devices[M]. New Yk, NY, USA: Springer, 2008.
