1) cyclohexanol
环乙醇
2) 2-cyclohexylcyclohexanol
2-环己基环乙醇
3) ethyleneimine
环乙亚胺
1.
Four triatomic heterocyclic compounds, cyclopropane, oxacyclopropane, ethyleneimine and thiirane were fully optimized utilizing Gaussian94 program package with a density functional theory (DFT) method B3LYP and an ab initio method MP2 at 6-311 ++G** level, and the theoretical results agrees well with the reference data, which shows that this method is reliable.
使用Gaussian94程序包和密度泛函方法(DFT)B3LYP以及从头算方法MP2在B3LYP/6-311++G**基组水平上,对4种三元杂环化合物环丙烷、环氧乙烷、环乙亚胺和硫杂环丙烷进行了全优化,其理论数据和文献数据符合得很好,这表明该方法是可靠的。
4) tiletamine
噻环乙胺
1.
The effect of tiletamine on the activity of NOS,NO production,and cGMP content in different brain regions of rat were observed to investigate the modulation of NO/cGMP signal transduction in the molecular mechanisms of general anaesthesia mediated by tiletamine.
动态观察噻环乙胺对大鼠不同脑区NOS活性、NO产量、cGMP含量的影响,以探讨NO/cGMP信号转导系统对噻环乙胺全麻分子机理的调控。
5) cyclohexane
环乙烷
6) Ethyleneimine
环乙胺
参考词条
补充资料:环乙醇
环乙醇
为无色液体,用作树脂、油漆、乙基纤维素、橡胶等的溶剂,并作为清洁剂等。可经呼吸道、消化道及皮肤吸收。高浓度蒸气可引起麻醉作用和有眼、鼻、咽、喉部刺激作用,皮肤接触可发生皮炎、重者溃疡、坏死。应采取加强通风,密闭,防止皮肤接触等预防措施,污染后应立即用清水冲洗皮肤。
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