Moreover, we also studied and compared the catalysts, catalyst concentration, solvents, solvent concentration, arene concentration, temperature and reaction time in order to optimize the reaction system.
并且,以均三甲苯、对二甲苯和苯乙炔为例,分别考察了催化剂、催化剂浓度、溶剂、溶剂浓度、温度、反应时间、芳烃浓度等因素对于反应的影响。
参考来源 - Fe(III)催化的芳烃烯基化反应及Pd(II)催化的芳烃交叉偶联反应的机理研究·2,447,543篇论文数据,部分数据来源于NoteExpress
So far, studies on the solvent concentration are rarely reported in literatures.
但是到目前为止,对溶剂浓度的研究鲜见文献报导。
The effects of solvent concentration and volume, microwave radiation time and power on extraction output were investigated.
讨论了提取溶剂浓度和用量、微波提取时间和微波功率对微波萃取的影响。
And discussed the reaction temperature, the ratio of reagent, the solvent concentration, reaction time on the production rate.
并讨论了反应温度、反应物的摩尔比、溶剂的用量、反应时间对产率的影响。
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