常正實

2011/09—2015/09，西安交通大學，電氣工程學院，電氣工程專業博士；

2007/09—2010/07，西北師範大學，物電學院，原子分子物理專業碩士。

2018年7月-至今，西安交通大學 電氣工程學院，副教授；

2015年10月-2018年7月，西安交通大學 電氣工程學院，講師；

2017年9月—2018年9月，明尼蘇達大學（University of Minnesota），訪問學者

[14] 常正實. 課題二: 新型果蔬汁非熱殺菌關鍵技術及裝備. 2019.01-2021.12. 廣東省重點領域研發計畫項目-新型果蔬汁加工關鍵技術及裝備開發.(負責)

[13] 常正實. Ar/NH3大氣壓電漿射流的發展演化特性研究. 項目執行期限: 2018.06-2019.06. 陝西省博士後基金面上項目. (負責)

[12] 常正實. 脈衝放電電漿射流對鍵捆紙聚乙烯薄膜表面功能化效果的研究. 項目執行期限: 2019.01-2020.12. 電力設備電氣絕緣國家重點實驗室中青年基礎研究創新項目. (負責)

[11] 常正實. 納秒脈衝放電電漿特性演化及對聚醯亞胺薄膜表面功能化的研究. 項目執行期限: 2018年04-2020.04. 強脈衝輻射環境模擬與效應國家重點實驗室開放課題. (負責)

[10] 常正實. 基於原位診斷技術的均勻APPJ與聚合物薄膜表面相互作用機制研究. 項目執茅乘糠去行期限: 2018.01-2021.12. 國家自然科學基金面上項目. (負責)

[9] 常正實. 電漿對明膠凝膠的作用效果及互動區活性粒子診斷. 項目執行期限: 2017.06-2019.06. 第10批中國博士後科學基金特別資助項目. (負責)

[8] 常正實. 重頻快納秒脈衝放電APPJ對聚醯亞胺薄膜表面功能化效果研究. 項目執行期限: 2017.06-2019.06. 三束材料改性教育部重點實驗室（大連理工大學）開放課題. (負責)

[7] 常正連辯辨實. 阻擋介質陷阱特性和混合氣體彭寧效應對DBD電漿均勻性的影響機制. 項目執行期限: 2014.01-2016.12. 國家自然科學基金青年項目. (負責)

[6] 常正實. 大氣壓均勻電漿射流的特性及產察漏辨生、發展機理研究. 項目執行期限: 2016.05-2019.05. 第59批中國博士後科學基金面上資助一等資助. (負責)

[5] 常正實. 大氣壓達影烏舉均勻低溫電漿特性及對胰腺腫瘤細胞處理效果的研究. 項目執行期限: 2016.01-2018.12. 中央基本科研業務費(西安交通大學學科交叉研究經費). (負責)

[4] 常正實. 類輝光大氣壓低溫電漿射流的機理研究. 項目執行期限: 2015.09-2018.09. 西安交通大學科研啟動經費. (負責)

[3] 常正實. 大氣壓均勻電漿的產生、特性及對聚合物材料表面作用效果和機理的研究. 項目執行期限: 2016.01-2017.12. 電轎危力設備電氣絕緣國家重點實驗室中青年基礎研究創新項目. (負責)

[2] 常正實. 高活性調製式脈衝電漿產生技術及發生器研發. 項目執行期限: 2017.08-2018.08. 中國石油化工股份有限公司青島安全工程研究院外協項目. (負責)

[1] 常正實. 驅動頻率和氣隙對DBD電漿放電模式及特性的影響研究. 項目執行期限: 2016.10-2017.04. 中國石油化工股份船棄埋有限公司青島安全工程研究院外協項目. (負責)

[33] 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.

[32] 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.

[31] Congwei Yao, Sile Chen, Guimin Xu, Zhengshi Chang, Haibao Mu, Anbang Sun, Guanjun 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.

[30] 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, e1800165 (pp10). (Back Cover)

[29] 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.

[28] 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.

[27] 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. Journal of Physics D: Applied Physics. 2018, 51(41): 414002.

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

[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.

[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.

[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=12.343)

[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: 093505-1-8.

[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.

[20] 姚聰偉, 常正實, 王世強, 劉全楨, 穆海寶, 張冠軍, 胡海燕. 不同電源頻率下大氣壓平板型介質阻擋放電特性的實驗研究[J], 高電壓技術. 2017, 43 (6) :1837-1844

[19] 姚聰偉, 馬恆馳, 常正實, 李平, 穆海寶, 張冠軍. 大氣壓介質阻擋輝光放電脈衝的陰極位降區特性及其影響因素的數值仿真研究[J]. 物理學報. 2017, 66(2): 025203.

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.

[18] Congwei Yao, Zhengshi Chang, Hengchi Ma, Guimin Xu, Haibao Mu, Guanjun Zhang. Experimental Research on Mode Transitions of Atmospheric Pressure Helium Dielectric Barrier Discharge [J]. IEEE Transactions on Plasma Science. 2016, 44(11): 2576- 2588.

[17] Zhengshi Chang, Congwei Yao, Sile Chen, Guanjun Zhang, Electrical and optical properties of Ar/NH3 atmospheric pressure plasma jet[J]. Physics of Plasmas. 2016, 23: 093503(9).

[16] Zhengshi Chang, Congwei Yao, Guanjun Zhang, Non-thermal equilibrium atmospheric pressure glow-like discharge plasma jet[J]. Plasma Science and Technology. 2016, 18(1): 17-22.

[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.

[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.

[13] 姚聰偉, 常正實, 張冠軍, 等. 大氣壓氬氣介質阻擋放電電漿特性變化的一維仿真[J]. 高電壓技術. 2015, 41(6): 2084-2092.

[12] Zhengshi Chang, Nan Jiang, Guanjun Zhang, Zexian Cao. Influence of Penning effect on the plasma features in a non-equilibrium atmospheric pressure plasma jet[J]. Journal of Applied Physics. 2014, 115(10): 103301(7).

[11] Zhengshi Chang, Guanjun Zhang. Dynamic evolution of helium atmospheric pressure plasma jet with ITO-PET electrodes[J]. IEEE Transactions on Plasma Science. 2014, 42(10): 2442-2443.

[10] Zhengshi Chang, Guanjun Zhang, Congwei Yao, Wenlong Liao, Xingmin Shi. Atmospheric pressure plasma jet array with multivariate cells[J]. IEEE Transactions on Plasma Science. 2014, 42(10): 2440-2441.

[9] Zhengshi Chang, Congwei Yao, Haibao Mu, Guanjun Zhang. Study on the property evolution of atmospheric pressure plasma jets in helium[J]. Plasma Science & Technology. 2014, 16(1): 83-88.

[8] Xingmin Shi, Guanjun Zhang, Zhengshi Chang, Xili Wu, et al. Viability reduction of melanoma cells by plasma jet via inducing G1S and G2M cell cycle arrest and cell apoptosis[J]. IEEE Transactions on Plasma Science. 2014, 42(6): 1640-1647.

[7] Zhengshi Chang, Xingmin Shi, Guanjun Zhang, Zhuoyuan Dong, Xianjun Shao. Effects of atmospheric DBCD plasma on three kinds of typical microorganisms[J]. IEEE Transactions on Plasma Science. 2013, 41(7): 1703-1708.

[6] Xingmin Shi, Zhengshi Chang, Xili Wu, Guanjun Zhang, et al. Inactivation effect of argon atmospheric pressure low-temperature plasma jet on murine melanoma Cells[J]. Plasma Processes and Polymers. 2013, 10(9): 808–816.

[5] Xianjun Shao, Zhengshi Chang, Haibao Mu, Wenlong Liao and Guanjun Zhang. Experimental and numerical investigation on the interaction between Ar flow channel and Ar plasma jet at atmospheric pressure[J]. IEEE Transactions on Plasma Science. 2013, 41(4): 899-906.

[4] Zhengshi Chang, Xianjun Shao, Zenghui Zhang, Guanjun Zhang. Spectral diagnosis of gas temperature of atmospheric pressure plasma jet in helium[J]. High Voltage Engineering. 2013, 39(9): 2260-2266.

[3] Xianjun Shao, Zhengshi Chang, Zenghui Zhang, Guanjun Zhang. Comparison of formation mechanism between helium and argon atmospheric pressure plasma jets[J]. High Voltage Engineering. 2013, 39(9): 2201-2206.

[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)

[1] 常正實, 邵先軍, 張冠. 基於OH基團二級光譜的氬大氣壓電漿射流溫度診斷[J]. 高電壓技術. 2012, 38(7): 1736-1741. (EI:20123615396272).

[16] 陝西省優秀博士學位論文. 2019.01.

[15] 西安交通大學優秀博士學位論文. 2018.04.

[14] 第十八屆全國電漿會議優秀論文. 2017.08.

[13] 《高電壓技術》2016年優秀審稿人. 2017.01.

[12] 常正實(5/9). 陝西高等學校科學技術獎一等獎, 2015.02.

[11] 常正實(5/11). 陝西省科學技術獎二等獎, 2016.02.

[10] 西安交通大學“學術之星”, 2015.06.

[9] 博士研究生國家獎學金, 2014.12.

[8] 西安交通大學優秀研究生標兵, 2014.12.

[7] 西安交通大學優秀畢業生, 2014.04.

[6] GE創新大賽三等獎, 2013.12.

[5] 遠東獎學金—遠東成就獎, 2013.12.

[4] 西安交通大學優秀研究生幹部, 2013.12.

[3] 入選西安交通大學電氣學院優秀博士生培養計畫, 2013.07.

[2] 博士研究生國家獎學金, 2012.11.

[1] 西安交通大學優秀研究生, 2012.12

[3] 常正實. 大氣壓均勻電漿的產生、特性及對聚合物材料表面作用效果和機理的研究. 項目執行期限: 2016.01-2017.12. 電力設備電氣絕緣國家重點實驗室中青年基礎研究創新項目. (負責)

[2] 常正實. 高活性調製式脈衝電漿產生技術及發生器研發. 項目執行期限: 2017.08-2018.08. 中國石油化工股份有限公司青島安全工程研究院外協項目. (負責)

[1] 常正實. 驅動頻率和氣隙對DBD電漿放電模式及特性的影響研究. 項目執行期限: 2016.10-2017.04. 中國石油化工股份有限公司青島安全工程研究院外協項目. (負責)

[33] 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.

[32] 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.

[31] Congwei Yao, Sile Chen, Guimin Xu, Zhengshi Chang, Haibao Mu, Anbang Sun, Guanjun 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.

[30] 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, e1800165 (pp10). (Back Cover)

[29] 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.

[28] 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.

[27] 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. Journal of Physics D: Applied Physics. 2018, 51(41): 414002.

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

[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.

[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.

[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=12.343)

[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: 093505-1-8.

[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.

[20] 姚聰偉, 常正實, 王世強, 劉全楨, 穆海寶, 張冠軍, 胡海燕. 不同電源頻率下大氣壓平板型介質阻擋放電特性的實驗研究[J], 高電壓技術. 2017, 43 (6) :1837-1844

[19] 姚聰偉, 馬恆馳, 常正實, 李平, 穆海寶, 張冠軍. 大氣壓介質阻擋輝光放電脈衝的陰極位降區特性及其影響因素的數值仿真研究[J]. 物理學報. 2017, 66(2): 025203.

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.

[18] Congwei Yao, Zhengshi Chang, Hengchi Ma, Guimin Xu, Haibao Mu, Guanjun Zhang. Experimental Research on Mode Transitions of Atmospheric Pressure Helium Dielectric Barrier Discharge [J]. IEEE Transactions on Plasma Science. 2016, 44(11): 2576- 2588.

[17] Zhengshi Chang, Congwei Yao, Sile Chen, Guanjun Zhang, Electrical and optical properties of Ar/NH3 atmospheric pressure plasma jet[J]. Physics of Plasmas. 2016, 23: 093503(9).

[16] Zhengshi Chang, Congwei Yao, Guanjun Zhang, Non-thermal equilibrium atmospheric pressure glow-like discharge plasma jet[J]. Plasma Science and Technology. 2016, 18(1): 17-22.

[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.

[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.

[13] 姚聰偉, 常正實, 張冠軍, 等. 大氣壓氬氣介質阻擋放電電漿特性變化的一維仿真[J]. 高電壓技術. 2015, 41(6): 2084-2092.

[12] Zhengshi Chang, Nan Jiang, Guanjun Zhang, Zexian Cao. Influence of Penning effect on the plasma features in a non-equilibrium atmospheric pressure plasma jet[J]. Journal of Applied Physics. 2014, 115(10): 103301(7).

[11] Zhengshi Chang, Guanjun Zhang. Dynamic evolution of helium atmospheric pressure plasma jet with ITO-PET electrodes[J]. IEEE Transactions on Plasma Science. 2014, 42(10): 2442-2443.

[10] Zhengshi Chang, Guanjun Zhang, Congwei Yao, Wenlong Liao, Xingmin Shi. Atmospheric pressure plasma jet array with multivariate cells[J]. IEEE Transactions on Plasma Science. 2014, 42(10): 2440-2441.

[9] Zhengshi Chang, Congwei Yao, Haibao Mu, Guanjun Zhang. Study on the property evolution of atmospheric pressure plasma jets in helium[J]. Plasma Science & Technology. 2014, 16(1): 83-88.

[8] Xingmin Shi, Guanjun Zhang, Zhengshi Chang, Xili Wu, et al. Viability reduction of melanoma cells by plasma jet via inducing G1S and G2M cell cycle arrest and cell apoptosis[J]. IEEE Transactions on Plasma Science. 2014, 42(6): 1640-1647.

[7] Zhengshi Chang, Xingmin Shi, Guanjun Zhang, Zhuoyuan Dong, Xianjun Shao. Effects of atmospheric DBCD plasma on three kinds of typical microorganisms[J]. IEEE Transactions on Plasma Science. 2013, 41(7): 1703-1708.

[6] Xingmin Shi, Zhengshi Chang, Xili Wu, Guanjun Zhang, et al. Inactivation effect of argon atmospheric pressure low-temperature plasma jet on murine melanoma Cells[J]. Plasma Processes and Polymers. 2013, 10(9): 808–816.

[5] Xianjun Shao, Zhengshi Chang, Haibao Mu, Wenlong Liao and Guanjun Zhang. Experimental and numerical investigation on the interaction between Ar flow channel and Ar plasma jet at atmospheric pressure[J]. IEEE Transactions on Plasma Science. 2013, 41(4): 899-906.

[4] Zhengshi Chang, Xianjun Shao, Zenghui Zhang, Guanjun Zhang. Spectral diagnosis of gas temperature of atmospheric pressure plasma jet in helium[J]. High Voltage Engineering. 2013, 39(9): 2260-2266.

[3] Xianjun Shao, Zhengshi Chang, Zenghui Zhang, Guanjun Zhang. Comparison of formation mechanism between helium and argon atmospheric pressure plasma jets[J]. High Voltage Engineering. 2013, 39(9): 2201-2206.

[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)

[1] 常正實, 邵先軍, 張冠. 基於OH基團二級光譜的氬大氣壓電漿射流溫度診斷[J]. 高電壓技術. 2012, 38(7): 1736-1741. (EI:20123615396272).

[16] 陝西省優秀博士學位論文. 2019.01.

[15] 西安交通大學優秀博士學位論文. 2018.04.

[14] 第十八屆全國電漿會議優秀論文. 2017.08.

[13] 《高電壓技術》2016年優秀審稿人. 2017.01.

[12] 常正實(5/9). 陝西高等學校科學技術獎一等獎, 2015.02.

[11] 常正實(5/11). 陝西省科學技術獎二等獎, 2016.02.

[10] 西安交通大學“學術之星”, 2015.06.

[9] 博士研究生國家獎學金, 2014.12.

[8] 西安交通大學優秀研究生標兵, 2014.12.

[7] 西安交通大學優秀畢業生, 2014.04.

[6] GE創新大賽三等獎, 2013.12.

[5] 遠東獎學金—遠東成就獎, 2013.12.

[4] 西安交通大學優秀研究生幹部, 2013.12.

[3] 入選西安交通大學電氣學院優秀博士生培養計畫, 2013.07.

[2] 博士研究生國家獎學金, 2012.11.

[1] 西安交通大學優秀研究生, 2012.12