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陈强

发布时间:2017-06-09 浏览次数:43

姓名陈强

职称、职位:副教授、硕导

箱:chenqiangATxmu.edu.cn

办公地点:物机大楼340





学历:

2006.04–2009.03   工学博士,日本埼玉大学

2005.10–2006.03   研究生,日本埼玉大学

2002.09–2005.06   凝聚态物理专业硕士,兰州大学物理系

1998.09–2002.06   理学学士,兰州大学物理系

研究方向:

放电等离子体科学与技术

主讲课程:

量子力学

大学物理C

放电等离子体及其应用(研究生课)


学术兼职:

2017-现在 中国电工技术学会高级会员

2016-现在 中国电工技术学会-等离子体及应用专业委员会委员

2015-现在 Division of Plasma Physics Association of Asia Pacific Physical Societies 会员

2009-现在 日本等离子体核融合学会会员

2006-现在 日本应用物理学会会员

成果奖励:

2011.11 薄膜研究鼓励奖, 第十五届国际薄固态膜会议, 日本京都2009.11–2011.12 日本学术振兴会外国人特别研究员奖励费(JSPS2005.10–2009.03 日本文部科学省国费奖学金

课题项目:

基于等离子体-液体相互作用的尺寸及形状可控金属纳米粒子合成,国家自然科学基金青年项目, 2015-2017

液中放电等离子体合成金属纳米材料及其在太阳能电池中的应用,厦门大学校长基金,2015-2017


代表作:

[1]Jiandi Liu, Bangbang He, Qiang Chen*, Hai Liu, Junshuai Li, Qing Xiong, Guanghui Yue*, Xianhui Zhang, Size Yang, and Qing Huo Liu, Plasma electrochemical synthesis of cuprous oxide nanoparticles and their visible-light photocatalytic effect, Electrochimi Acta222 (2016) 1677.

[2]Jiandi Liu, Bangbang He, Qiang Chen*, Junshuai Li, Qing Xiong, Guanghui Yue, Xianhui Zhang, Size Yang, Hai Liu* and Qing Huo Liu, Direct synthesis of hydrogen peroxide from plasma-water interactions,Sci. Reps. 6 (2016) 38454.

[3]Jiandi Liu, Qiang Chen*, Junshuai Li, Qing Xiong, Guanghui Yue*, Xianhui Zhang, Size Yang and Qing Huo Liu, “Facile synthesis of cuprous oxide nanoparticles by plasma electrochemistry”, J. Phys. D 49 (2016) 275201.

[4] Q. Chen*, J. Li, and Y. Li, “A review of plasma–liquid interactions for nanomaterial synthesis”, Invited Review in J. Phys. D48 (2015) 424005.

[5]Q. Chen* and T. Ichiki, “80-mm-wide cold atmospheric-pressure plasma generated by two parallel but horizontally separated electrodes”, Plasma Sources Sci. Technol. 24 (2015) 025022.

[6]Q. Chen*, S. Tsuchiya, and T. Ichiki, “Diagnostics of Expanding Mesoplasmas Originated from a Miniaturized Inductively Coupled Plasma and their Application to Si Etching”, Jpn. J. Appl. Phys.53 (2014) 03DB03.

[7]Q. Chen, T. Kaneko*, N. Matsuda, and R. Hatakeyama, “Potential structure of discharge plasma inside liquid directly measured by an electrostatic probe”, Appl. Phys. Lett.102 (2013) 244105.

[8]Q. Chen* and J. S. Li, “Observation of positive self-bias in a radio frequency atmospheric pressure microplasma”,IEEE Trans. Plasma Sci.41 (2013) 826.

[9]Q. Chen* and H. Shirai, “Large-area cold atmospheric pressure discharges realized by mesh covered tube-plate electrodes in open air”, IEEE Trans. Plasma Sci.41 (2013) 421.

[10]Q. Chen*, T. Kaneko, and R. Hatakeyama, “Synthesis of superfine ethanol-soluble CoO nanoparticles via discharge plasma in liquid”, Appl. Phys. Express5 (2012) 096201.

[11]Q. Chen, T. Kaneko*, and R. Hatakeyama, “Reductants in gold nanoparticle synthesis using gas–liquid interfacial discharge plasmas” Appl. Phys. Express5 (2012) 086201.

[12]Q. Chen*, T. Kaneko, and R. Hatakeyama, “Rapid synthesis of water-soluble gold nanoparticles with control of size and assembly using gas-liquid interfacial discharge plasma”, Chem. Phys. Lett.521 (2011) 113.

[13]T. Kaneko, Q. Chen, T. Harada, and R. Hatakeyama, “Structural and reactive kinetics in gas-liquid interfacial plasmas”, Plasma Sources Sci. Technol.20 (2011) 034014.

[14]Q. Chen*, T. Kaneko, and R. Hatakeyama, “Effects of ionic liquid electrode on pulse discharge plasmas in the wide range of gas pressures”, J. Appl. Phys.108 (2010) 103301.

[15]Q. Chen* and K. Huang, “Comment on ‘Effects of the medium on synthesis of nanopowders by wire explosion process’ [Appl. Phys. Lett. 91, 141501 (2007)]”, Appl. Phys. Lett.92 (2008) 106101.

[16]Q. Chen*, J. Li, K. Saito, and H. Shirai, “The characterization of radio-frequency discharge using electrolyte as one electrode at atmospheric pressure”, J. Phys. D 41 (2008) 175212.

[17]Q. Chen, Y. Takemura, K. Saito, and H. Shirai, “Physicochemistry of the plasma-electrolyte solution interface”, Thin Solid Films,516 (2008) 6688.

[18]Q. Chen, T. Kitamura, K. Saito, K. Haruta, Y. Yamano, T. Ishikawa, and H. Shirai, “Microplasma discharge within ethanol solution: Characterization and its application to the synthesis of carbon microstructures”, Thin Solid Films,516 (2008) 4435.