说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 反应途径和步骤
1)  reaction path and steps
反应途径和步骤
1.
According to conditions of experiment and diagnosed transient components in discharge course of blend flowing of N 2 and H 2 by continuous real time mass spectrometry,the reaction path and steps of synthesizing ammonia were analysed,the standpoint of decay to ammonia via transient component N 2H 6 is presented.
依据试验条件和实时连续质谱诊断的氮氢混合气流放电过程中的瞬态成份 ,分析合成氨的反应途径和步骤 ,提出经由瞬态成份 N2 H6 衰变为氨的观
2)  way and implemental step
途径与实施步骤
3)  Reaction pathway
反应途径
1.
AM1 method has been used to study the reaction pathway of acrolein in the basis state and the excited states.
用量子化学方法研究了丙烯醛基态和激发态的反应途径,通过比较不同反应途径的反应势垒和中间产物构型的稳定性,从理论上得出该反应的反应机理。
2.
MNDO method has been employed to study reaction pathway a nd to optimizestructure of reactant,product and transition state for the nitro-alhane tautomerism.
用Pulay方法优化了反应物和产物的平衡几何构型,算得了反应途径,获得了过渡态,由虚振动模式对过渡态进行了确证。
3.
NMDO method has been employed to study reaction pathway and to optimizestructure of reactant product and transition state for the dechlorination reaction .
用MNDO方法研究了脱的反应途径和过渡态,论证了O ̄*作为临基参预反应的可行性和优越性。
4)  reaction path
反应途径
1.
By searching for the location of the transition states and calculating the reaction heat and the activation energy, it was obtained that the activation barriers of paths 1 and 2 are much low comparatively among four reaction paths, so the major product of the reaction is C 2H 6, which agrees with the experimental result.
提出甲烷等离子体偶联合成碳二烃的主要基元反应是甲烷与甲基、亚甲基、次甲基的自由基反应 ,并用半经验量子化学的 PM3方法 ,对可能的反应途径进行了量子化学研究 ,得到了过渡态的构型 ,计算了反应热及活化能 。
2.
On this basis,the various vibrational frequencies and the normalized eigenvector components for the equilibrium species were calculated,the correlations and changes along the reaction path of various vibrational modes of the reaction system were discussed .
在此基础上,计算了各平衡几何构型不同振动的频率和归一化的本征向量的分量,讨论了反应体系的不同振动模式沿反应途径的相关及其变化。
5)  Reaction controlling step
反应控制步骤
6)  approach and steps
路径步骤
补充资料:反应途径
分子式:
CAS号:

性质:反应物发生化学反应生成产物的路径。同样的反应物往往可能进行多种不同的反应,生成不同的产物。亦即它有不同的反应途径。选择适宜的操作条件,特别是选择适宜的催化剂,可以使反应物主要按所希望的反应途径进行,以获取最大产率的所需产物。这是研究和开发工作的主要任务。

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