Selenium nanoparticle prepared by femtosecond laser-induced plasma shock wave

被引:0
|
作者
Department of Electrophysics, National Chiao Tung University, Hsinchu [1 ]
30010, Taiwan
不详 [2 ]
10617, Taiwan
不详 [3 ]
不详 [4 ]
不详 [5 ]
10601, Taiwan
不详 [6 ]
30010, Taiwan
机构
来源
Opt. Express | 2020年 / 1卷 / 685-694期
关键词
Kinetics - Bismuth compounds - Selenium - Selenium compounds - Shock waves - Kinetic energy - Laser produced plasmas - Nanoparticles;
D O I
暂无
中图分类号
学科分类号
摘要
A novel approach for the production of both amorphous and crystalline selenium nanoparticles (SeNPs) using femtosecond laser-induced plasma shock wave on the surface of Bi2Se3 topological insulators at room temperature and ambient pressure is demonstrated. The shape and size of SeNPs can be reliably controlled via the kinetic energy obtained from laser pulses, so these are applicable as active components in nanoscale applications. Importantly, the rapid, low-cost and eco-friendly synthesis strategy developed in this study could also be extendable to other systems. © 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.
引用
收藏
相关论文
共 50 条
  • [1] Selenium nanoparticle prepared by femtosecond laser-induced plasma shock wave
    Tzeng, Wen-Yen
    Tseng, Ya-Hsin
    Yeh, Tien-Tien
    Tu, Chien-Ming
    Sankar, Raman
    Chen, Yu-Han
    Huang, Bang-Hao
    Chou, Fang-Cheng
    Luo, Chih-Wei
    OPTICS EXPRESS, 2020, 28 (01): : 685 - 694
  • [2] Nanoparticle removal using laser-induced plasma shock waves
    Peri, M. D. Murthy
    Varghese, Ivin
    Zhou, Dong
    John, Arun
    Li, Chen
    Cetinkaya, Cetin
    PARTICULATE SCIENCE AND TECHNOLOGY, 2007, 25 (01) : 91 - 106
  • [3] Study of the attenuation of laser-induced plasma shock wave
    Ni, XW
    Chen, JP
    Shen, ZH
    Lu, JA
    INTERNATIONAL JOURNAL OF OPTOELECTRONICS, 1998, 12 (02): : 37 - 39
  • [4] Laser-induced plasma shock wave propagation underwater
    Zhao, Rui
    Xu, Rong-qing
    Liang, Zhong-cheng
    OPTIK, 2013, 124 (12): : 1122 - 1124
  • [5] Equations of laser-induced plasma shock wave motion in air
    Chen, X
    Bian, BM
    Shen, ZH
    Lu, J
    Ni, XW
    MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 2003, 38 (01) : 75 - 79
  • [6] The investigation of laser-induced plasma shock wave propagation in liquids
    Bian, BM
    Chen, X
    Xia, M
    Yang, L
    Shen, ZH
    ACTA PHYSICA SINICA, 2004, 53 (02) : 508 - 513
  • [7] Mechanism of laser-induced plasma shock wave evolution in air
    赵瑞
    梁忠诚
    韩冰
    张宏超
    徐荣青
    陆建
    倪晓武
    Chinese Physics B, 2009, 18 (05) : 1877 - 1883
  • [8] Mechanism of laser-induced plasma shock wave evolution in air
    Zhao, Rui
    Liang, Zhong-Cheng
    Han, Bing
    Zhang, Hong-Chao
    Xu, Rong-Qing
    Lu, Jian
    Ni, Xiao-Wu
    CHINESE PHYSICS B, 2009, 18 (05) : 1877 - 1883
  • [9] Spatial confinement of laser-induced plasma by laser-induced and obstacle-reflected shock wave and its effect on optical emission of laser-induced plasma
    Qiu, Yining
    Yao, Chujun
    Yao, Chengbao
    Gan, Jie
    Zhang, Wu
    Xu, Ning
    Sun, Jian
    Wu, Jiada
    AIP ADVANCES, 2019, 9 (09)
  • [10] Laser light scattering in a laser-induced argon plasma: Investigations of the shock wave
    Pokrzywka, B.
    Mendys, A.
    Dzierzega, K.
    Grabiec, M.
    Pellerin, S.
    SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY, 2012, 74-75 : 24 - 30
12345