1)  LC-MS/MS
气相色谱-质谱/质谱
2)  GC-MS-MS
气相色谱-质谱-质谱技术
3)  GC/MS/MS
气相色谱/质谱/质谱
1.
Determination of polychlorinated biphenyls by GC/MS/MS method;
多氯联苯的气相色谱/质谱/质谱(GC/MS/MS)法测定
4)  gas
气相
1.
Determination of dimethyl sulphate residual in granisetron hydrochloride by headspace gas chromatography;
顶空气相色谱法测定盐酸格拉司琼中硫酸二甲酯残留量
2.
Study on Assay Method of Multicomponent Organotins in Aquatic Products by Gas Chromatography with Pulsed Flame Photometric Detector;
气相色谱-脉冲火焰光度法测定水产品中有机锡的研究
3.
Determination of residual organic solvents in Panax notoginseng extracts by capillary gas chromatography with headspace sampling;
顶空毛细管气相法测定三七提取物中有机溶剂残留量
5)  gas phase
气相
1.
Study on the gas phase catalytic synthesis of Ph_nSiCl_(4-n);
苯氯硅烷的气相催化合成
2.
These projects include condensed phase and gas phase mechanism of flame retardance,catalysts in flame retardancy,polymer/inorganics nanocomposite,effects of polymer fine structure on flame retardancy etc.
综述和讨论了阻燃领域中一些值得重视和有待深入研究的问题及其近年取得的进展,这些问题涉及凝聚相及气相阻燃机理、阻燃催化剂、高聚物/无机物纳米复合材料、高聚物的精细结构对阻燃性的影响等,可供阻燃理论研究工作者参考。
3.
The test results showed that the aromatics hydrogenation reactions conducted in the presence of different contents of H2S and NH3 in gas phase could be written in the form of a pseudo-first-order reaction and the rate constant was obtained.
在30 mL连续流动固定床加氢试验装置上考察了气相H2S、NH3对柴油馏分芳烃加氢反应的影响。
6)  vapor phase
气相
1.
Study on the Pressure Dissolution of High Pure Platinum by Microwave Vapor Phase Heating Method;
微波-气相-热压法分解高纯铂的研究
2.
On the basis of experiments, thermodynamic analysis for vapor phase carbonylation of methanol to acetic acid over Ni/AC catalyst at atmospheric pressure, with referring to the liquid phase and pressurized vapor phase carbonylation path and mechanism, was carried out, and the path and mechanism of the system were discussed.
在研究Ni/AC催化剂上甲醇常压气相羰基化制醋酸的基础上 ,结合甲醇液相羰基化和加压情况下气相羰基化的反应情况 ,对常压气相羰基化制醋酸体系进行热力学分析 ,探讨该体系的反应途径和机理。
参考词条
补充资料:裂解气相色谱-质谱法
分子式:
CAS号:

性质:在普通的气相色谱质谱联用仪(GC/MS)的进样系统中加一个热裂解器,在热裂解器中,高聚物大分子被加热裂解成小分子气体,载气辛巴这些小分子带入色谱仪进行分离,再引入质谱仪进行电离和分析,质谱仪给出这些小分子的质谱图,化学家可以根据质谱结果,推测出原来高聚物的种类和可能结构。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。