1) plasma-induced processing
等离子体诱导加工
2) Laser-induced plasma
激光诱导等离子体
1.
The Application of the High-Energy Laser-Induced Plasma Technology in the Analysis of the Substance's Composition;
高能量激光诱导等离子体技术在物质成分分析中的应用
2.
Introduction and Analysis of the Experimental Apparatus of the Laser-Induced Plasma
激光诱导等离子体光谱技术的实验装置进展
3.
Comparison in spatially-resolved emission image excited from low-pressure laser-induced plasmas using helium,argon,krypton
氦、氩、氪低压激光诱导等离子体激发的空间解析发射图谱的比较
3) plasma-induced graft polymerization
等离子体诱导接枝聚合
1.
A series of environmental responsive gating membranes were prepared by grafting methacrylic acid(MAA) onto two organic substrates,including porous polyvinylidene fluoride(PVDF) membranes and nylon(N6) membranes,and onto inorganic substrate porous anodic aluminum(PAA) membranes,with plasma-induced graft polymerization.
采用等离子体诱导接枝聚合法,在有机聚偏氟乙烯(PVDF)膜、尼龙(N6)膜和无机多孔阳极氧化铝(PAA)膜上接枝甲基丙烯酸(MAA),系统地研究了多孔膜基材及接枝工艺条件对接枝开关膜微观结构的影响。
4) Laser induced plasma
激光诱导等离子体
1.
The effects of laser pulse energy on the emission characteristics of laser induced plasma were studied with a Q switched Nd:YAG laser over an energy range of 52 mJ to 145 mJ in Argon atmosphere, During which time and space resolved spectroscopy was used.
使用Nd :YAG激光器烧蚀金属Al靶获得等离子体 ,利用光谱时 空分辨技术 ,在 52mJ~145mL/pulse激光脉冲能量范围内 ,关于激光脉冲能量对激光诱导等离子体辐射特征的影响进行了研究。
2.
40 nm from laser induced plasma, the time and space evolution characteristics of resonance double lines of aluminium in a plasma were obtained and mechanism was discussed.
通过测定激光诱导等离子体中Al原子共振双线396。
3.
The time- resolved luminescence spectra of laser induced plasma from BaTiO3 were studied with a optical multichannel analyzer (OMA Ⅲ).
利用光学多通道分析仪(OMAⅢ)研究脉冲激光沉积钛酸钡薄膜过程中的激光诱导等离子体的时间分辨发射光谱。
5) Micsowave-induced air plasma
微波诱导空气等离子体
6) Microwave induced plasma
微波诱导等离子体
1.
A microwave induced plasma atomic emission spectrometric detector for gas chromatography (GCMIPAED) was studied.
以微波诱导等离子体作为气相色谱的原子发射光谱检测器,在优化实验参数的基础上,考察了该检测器对有机化合物中的C,P,Si,Sn,B和I元素的响应特性(检出限、线性范围和精密度)。
2.
The generation of low power He microwave induced plasma (MIP) and the tuning characteristics of surfatron made in this laboratory were studied in detail.
对低功率He微波诱导等离子体的产生及Surfatron的调节特性进行了较详细的研究,在此基础上,用超声雾化法引入样品,测定了非金属元素Cl和Br,得到了一些有意义的结果。
补充资料:微波诱导等离子体质谱
分子式:
CAS号:
性质:等离子体质谱的一种。样品引入等离子体内离子化,然后进行质谱分析。与通常电感偶合等离子体质谱(1CP-MS)不同之处在于,它是依靠感应微波产生等离子体,而且把大小适当的共振腔与微波发生器相结合。共振腔用来聚集能量,使装在共振腔中间部位的毛细管中的惰性气体(氩或氦)等离子化,样品在等离子体中电离,然后进行质谱分析。这种质谱仪的主要用途是分析溶液中的金属元素。
CAS号:
性质:等离子体质谱的一种。样品引入等离子体内离子化,然后进行质谱分析。与通常电感偶合等离子体质谱(1CP-MS)不同之处在于,它是依靠感应微波产生等离子体,而且把大小适当的共振腔与微波发生器相结合。共振腔用来聚集能量,使装在共振腔中间部位的毛细管中的惰性气体(氩或氦)等离子化,样品在等离子体中电离,然后进行质谱分析。这种质谱仪的主要用途是分析溶液中的金属元素。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条