教授

姓名:刘大伟

职称:教授

电话:18971215263

电子邮箱:liudw@hust.edu.cn

个人基本情况(主要受教育经历、主要工作经历)


    男,博士,教授, IEEE会员,中国电工学会等离子体及应用专委

    会委员,获湖北省自然科学一等奖。

    学习经历

    1998-2002年 中国地质大学(武汉)机械与电子工程学院本科 

    2004-2009年 英国Loughborough University博士研究生

    工作经历

    2002-2004年 中国联通郑州市分公司任网络工程师 

    2009年至今在华中科技大学电气学院工作


    Professor

    Phone:027-87541346

    Email:liudw@hust.edu.cn

    Academic Areas: Low temperature plasma technology and its application

    Research Interests: Numerical and experimental study on low temperature plasmawith special attention on plasma jet driven by radio frequency and pulse power supply for biomedical applications.

     

     

    Academic DegreesPhd in Electric and Electronic Engineering, Loughborough University, UK, 2009

    BA in Electric and Electronic Engineering, China University of Geosciences, 2002

    Professional Experience:

    Full professor (2015-present): School of Electric and Electronic Engineering, Huazhong University of Science and Technology

    Associate Professor (2009-2015): SEEE, HUST

    Selected Publications:

    Cheng, H., Liu, X., Lu, X., and Liu, D. W. (2016). Active species delivered by dielectric barrier discharge filaments to bacteria biofilms on the surface of apple. Phys. Plasmas 1994-Present 23, 73517.

    Cheng, H., Lu, X., and Liu, D. W. (2015). The Effect of Tube Diameter on an Atmospheric-Pressure Micro-Plasma Jet. Plasma Process. Polym. 12, 1343–1347.

    Liu, X.Y., Pei, X.K., Lu, X.P., and Liu, D.W. (2014). Numerical and experimental study on a pulsed-dc plasma jet. Plasma Sources Sci. Technol. 23, 35007.

    Liu, J.H., Liu, X.Y., Hu, K., Liu, D.W., Lu, X.P., Iza, F., and Kong, M.G. (2011). Plasma plume propagation characteristics of pulsed radio frequency plasma jet. Appl. Phys. Lett. 98, 151502.

     

    Awards and Honors:

    The nature science prize of Hubei provience, 2011

     

    Course Taught

    Electric Circuit

    The application of low temperature plasma

     

    Centers/Program

    As the project leader, presided over three projects of National Nature Science Foundation of China, and two projects of AEET National state key laboratory.


研究领域

  1. 高电压放电等离子体理论

  2. 复杂等离子体与物质相互作用模拟分析

  3. 等离子体生物医学

  4. 等离子体在环境领域的应用(空气净化等)

学术兼职/承担的项目与课题

近五年承担的项目课题

序号

项目名称

项目性质及来源

1

大气压辉光放电激发态氧原子产生机制研究

国家自然基金

2

****同步触发技术研究

中物院惯约实施管理中心

3

****基础问题研究

01单位惯约中心

4

ITER高频负离子源激励器关键技术

科技部ITER专项

5

带电粒子催化人工降雨雪关键技术及装备研究

国家重点研发计划


代表性成果(近年的教学和科研成果、专著与论文、专利、获奖)

获奖:2011年湖北省自然科学一等奖

发表论文

[1]    Cheng H, Liu X, Lu X and Liu D* 2016 Active species delivered by dielectric barrier discharge filaments to bacteria biofilms on the surface of apple Phys. Plasmas 1994-Present 23 073517

[2]    Qiu Y, Nie L, Xian Y, Liu D*, Yue Y and Lu X 2016 The Influence of Gas Pressure, Voltage, and Frequency on Plasma Propagation in Tube ResearchGate PP 1–7

[3]    Bao P, Lu X, He M and Liu D* 2016 Kinetic Analysis of Delivery of Plasma Reactive Species Into Cells Immersed in Culture Media IEEE Trans. Plasma Sci. PP 1–9

[4]   Tan X, Qiu Y, Yang Y, Liu D*, Lu X and Pan Y 2016 Enhanced Growth of Single Droplet by Control of Equivalent Charge on Droplet IEEE Trans. Plasma Sci. PP 1–5

[5]    Cheng H, Liu X, Lu X and Liu D* 2016 Numerical study on propagation mechanism and bio-medicine applications of plasma jet High Volt. 1 62–73

[6]    Cheng H, Lu X and Liu D* 2015 The Effect of Tube Diameter on an Atmospheric-Pressure Micro-Plasma Jet Plasma Process. Polym. 12 1343–7

[7]    Liu X Y, He M B and Liu D W* 2015 The effect of working gas impurities on plasma jets Phys. Plasmas 1994-Present 22 043513

[8]    Liu X Y, Pei X K, Ostrikov K, Lu X P and Liu D W* 2014 The production mechanisms of OH radicals in a pulsed direct current plasma jet Phys. Plasmas 1994-Present 21 093513

[9]    Liu X Y, Pei X K, Lu X P and Liu D W* 2014 Numerical and experimental study on a pulsed-dc plasma jet Plasma Sources Sci. Technol. 23 035007

[10]  Hu J T, Wang J G, Liu X Y, Liu D W*, Lu X P, Shi J J and Ostrikov K 2013 Effect of a floating electrode on a plasma jet Phys. Plasmas 20 083516-083516-5

[11]  He J, Hu J, Liu D* and Zhang Y-T 2013 Experimental and numerical study on the optimization of pulse-modulated radio-frequency discharges Plasma Sources Sci. Technol. 22 035008

[12]  Wang J G, Liu X Y, Liu D W*, Lu X P and Zhang Y T 2013 Mathematical model of gas plasma applied to chronic wounds Phys. Plasmas 1994-Present 20 113507

[13]  Liu J H, Liu X Y, Hu K, Liu D W*, Lu X P, Iza F and Kong M G 2011 Plasma plume propagation characteristics of pulsed radio frequency plasma jet Appl. Phys. Lett. 98 151502

[14]  Liu X Y, Hu J T, Liu J H, Xiong Z L, Liu D W*, Lu X P and Shi J J 2012 The discharge mode transition and O(5p1) production mechanism of pulsed radio frequency capacitively coupled plasma Appl. Phys. Lett. 101 043705-043705-4

[15]  Hu J T, Liu X Y, Liu J H, Xiong Z L, Liu D W*, Lu X P, Iza F and Kong M G 2012 The effect of applied electric field on pulsed radio frequency and pulsed direct current plasma jet array Phys. Plasmas 19 063505-063505-5

[16]  Shi J J, Liu D W and Kong M G 2007 Mitigating plasma constriction using dielectric barriers in radio-frequency atmospheric pressure glow discharges Appl. Phys. Lett. 90 031505

[17]  Shi J J, Liu D W and Kong M G 2006 Plasma stability control using dielectric barriers in radio-frequency atmospheric pressure glow discharges Appl. Phys. Lett. 89 081502

[18] Shi J, Zhong F, Zhang J, Liu D W and Kong M G 2008 A hypersonic plasma bullet train traveling in an atmospheric dielectric-barrier discharge jet Phys. Plasmas 15 013504

[19]  Perni S, Liu D W, Shama G and Kong M G 2008 Cold atmospheric plasma decontamination of the pericarps of fruit J. Food Prot. 71 302–8

[20] Shi J J, Liu D W and Kong M G 2007 Effects of Dielectric Barriers in Radio-Frequency Atmospheric Glow Discharges Plasma Sci. IEEE Trans. On 35 137–42

[21]  Liu D W, Iza F and Kong M G 2009 Electron avalanches and diffused gamma-mode in radio-frequency capacitively coupled atmospheric-pressure microplasmas Appl. Phys. Lett. 95 031501-3

[22]  Liu D W, Iza F and Kong M G 2008 Electron heating in radio-frequency capacitively coupled atmospheric-pressure plasmas Appl. Phys. Lett. 93 261503–3

[23]  Liu D W, Shi J J and Kong M G 2007 Electron trapping in radio-frequency atmospheric-pressure glow discharges Appl. Phys. Lett. 90 041502-3

[24]  Da Wei Liu, Felipe Iza, Michael G. Kong 2009 Evolution of Atmospheric-Pressure RF Plasmas as the Excitation Frequency Increases Plasma Processes and Polymers 6 446

[25]  Dawei Liu, Iza F and Kong M G 2008 Evolution of the Light Emission Profile in Radio-Frequency Atmospheric Pressure Glow Discharges Plasma Sci. IEEE Trans. On 36 952–3