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    Journals >High Power Laser and Particle Beams >Volume 35 >Issue 5 >Page 055005 > Article
    • High Power Laser and Particle Beams
    • Vol. 35, Issue 5, 055005 (2023)
    Microfluidic plasma: novel process intensification technique
    Ziyi Zhang1, Yunming Tao1, Ming Gao2, Zhanghao Chen3, and Liangliang Lin1
    Author Affiliations
  • 1School of Chemical and Material Engineering, Jiangnan University, Wuxi 214122, China
  • 2Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, Shenzhen 518055, China
  • 3Guangdong Institute for Drug Control, Guangzhou 510663, China
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    DOI: 10.11884/HPLPB202335.220333 Cite this Article
    Ziyi Zhang, Yunming Tao, Ming Gao, Zhanghao Chen, Liangliang Lin. Microfluidic plasma: novel process intensification technique[J]. High Power Laser and Particle Beams, 2023, 35(5): 055005 Copy Citation Text show less
    Schematic diagram of argon/wet air plasma active substance transmission in gas, liquid and their interfaces
    Fig. 1. Schematic diagram of argon/wet air plasma active substance transmission in gas, liquid and their interfaces
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    Schematic diagram of confined microfluidic plasma
    Fig. 2. Schematic diagram of confined microfluidic plasma
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    Schematic diagram of spray gun microfluidic plasma reactor
    Fig. 3. Schematic diagram of spray gun microfluidic plasma reactor
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    Schematic diagram of microfluidic plasma array
    Fig. 4. Schematic diagram of microfluidic plasma array
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    Typical example of microfluidic plasma surface modification
    Fig. 5. Typical example of microfluidic plasma surface modification
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    Typical example of nanomaterials prepared by microfluidic plasma
    Fig. 6. Typical example of nanomaterials prepared by microfluidic plasma
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    Typical examples of microfluidic plasma biomedical treatment
    Fig. 7. Typical examples of microfluidic plasma biomedical treatment
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    typeconditiondetection methoddetection mechanismreferences
    HHe/H2O(g)EPR spin trapping with isotopes H2O+e*→OH+H+e [31]
    OHHe/H2O(g)MBMS/CRCRDS phenol probe method H+HO2→OH+OH O+H2O→2OH e+H2O→e-+OH+H [28] [31]
    OHe/O2OES/TALIF MBMS/ TALIF e+O2→O*2+e O*+O2→O*+O [32] [33]
    NHe/O2OES/TALIFN2+e→N++N+2e [34]
    N2+He/N2PIC/MCCe+He→e+e+He+e+N2→e+e+N2+[29]
    O3He/O2OES/TALIFO+O2+He→O3+He [35]
    O+He/O2OES/TALIFe+O2→O++O+2e [36]
    O*He/O2IRe+O2→O*2+e O*2+O3→2O2+O*[37]
    NOHe/O2/N2LIFN+O2→NO+O N2+O→NO+N [30]
    H2O2He/O2EPR isotope notation e+H2O→e+OH+H OH+OH+He→H2O2+He [38]
    Table 1. Typical reactive species, analytical methods, and formation mechanisms in microfluidic plasma
    Abstract
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    Ziyi Zhang, Yunming Tao, Ming Gao, Zhanghao Chen, Liangliang Lin. Microfluidic plasma: novel process intensification technique[J]. High Power Laser and Particle Beams, 2023, 35(5): 055005
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