淡江大學機構典藏:Item 987654321/100151
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    题名: Bias-Enhanced Nucleation and Growth Processes for Ultrananocrystalline Diamond Films in Ar/CH4 Plasma and Their Enhanced Plasma Illumination Properties
    作者: Adhimoorthy Saravanan;Huang, Bohr-Ran;Kamatchi Jothiramalingam Sankaran;Srinivasu Kunuku;Dong, Chung-Li;Leou, Keh-Chyang;Tai, Nyan-Hwa;Lin, I-Nan;林諭男
    贡献者: 淡江大學物理學系
    关键词: ultrananocrystalline diamond films;bias-enhanced nucleation and growth;nanographitic phases;amorphous carbon;electron field emission;plasma illumination
    日期: 2014-07
    上传时间: 2015-02-03 16:31:45 (UTC+8)
    出版者: Washington, DC: American Chemical Society
    摘要: Microstructural evolution of ultrananocrystalline diamond (UNCD) films in the bias-enhanced nucleation and growth (BEN-BEG) process in CH4/Ar plasma is systematically investigated. The BEN-BEG UNCD films possess higher growth rate and better electron field emission (EFE) and plasma illumination (PI) properties than those of the films grown without bias. Transmission electron microscopy investigation reveals that the diamond grains are formed at the beginning of growth for films grown by applying the bias voltage, whereas the amorphous carbon forms first and needs more than 30 min for the formation of diamond grains for the films grown without bias. Moreover, the application of bias voltage stimulates the formation of the nanographite phases in the grain boundaries of the UNCD films such that the electrons can be transported easily along the graphite phases to the emitting surface, resulting in superior EFE properties and thus leading to better PI behavior. Interestingly, the 10 min grown UNCD films under bias offer the lowest turn-on field of 4.2 V/μm with the highest EFE current density of 2.6 mA/cm2 at an applied field of 7.85 V/μm. Such superior EFE properties attained for 10 min bias grown UNCD films leads to better plasma illumination (PI) properties, i.e., they show the smallest threshold field of 3300 V/cm with largest PI current density of 2.10 mA/cm2 at an applied field of 5750 V/cm.
    關聯: ACS Applied Materials & Interfaces 6(13), pp.10566–10575
    DOI: 10.1021/am502231d
    显示于类别:[物理學系暨研究所] 期刊論文

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