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 -> 钯(II)催化
1)  Pd(Ⅱ)-catalysis
钯(II)催化
2)  Pd(Ⅱ) catalyst
钯(II)催化剂
3)  palladium(II)-catalyzed reaction
钯(II)催化的反应
4)  Pd catalyst
钯催化剂
1.
The analysis of key point in the production of hydrogen peroxide with Pd catalyst;
钯催化剂双氧水装置生产初期控制要点分析
2.
The latest progress of support modification, new supports(including macromolecular support and alumina support with nano-fiber shape), cocatalysts and new preparation technology of the catalysts in the research on the novel Pd catalysts for anthraquinone hydrogenation in recent years is reviewed.
评述近年来新型蒽醌加氢用钯催化剂研究中载体改性、新型载体(包括高分子载体和纳米纤维状氧化铝载体)、助催化剂及新制备技术等方面的最新进展,指出通过载体改性可提高现有催化剂的活性和选择性,而助催化组分和新催化剂制备工艺应是今后蒽醌加氢催化剂研究的重点方向。
3.
Through the experiment and comparison of regenerating methods using steam,aromatic hydrocarbon and oxidizing solution for Pd catalyst used in the hydrogen peroxide production by anthraquinone process,recommends Pd catalyst regenerating method using oxidizing solution could being applied in the industrial hydrogen peroxide production.
通过对工业化易于采用的蒽醌法过氧化氢用钯催化剂蒸气再生法、芳烃再生法、氧化液再生法的实验研究,提出了在过氧化氢的工业化生产中采用氧化液法再生钯催化剂的建议。
5)  palladium catalyst
钯催化
6)  Palladium-catalyzed
钯催化
1.
Palladium-Catalyzed Synthesis of 2-Carbonyl-indene Derivatives and Their Application in Synthesis of Novel Fungicides;
钯催化合成2-羰基取代茚衍生物及其在合成新型杀菌剂中的应用
2.
Novel poly(imino ketone)s(PIKs) as high performance polymers have been obtained by the condensation polymerization of 1,4-Bis-(4-bromobenzoyl)-benzene and aromatic diamines via Palladium-catalyzed aryl amination reaction.
以1,4-双-(4’溴苯酰基)苯和芳香二胺为为单体,通过钯催化的胺基化反应缩聚合成了新型高性能聚合物-聚亚胺酮(PIKs)。
3.
The key inter- mediate 2-acetylindene compounds were synthesized by one-pot palladium-catalyzed reaction in good y.
同时,用钯催化“一锅法”反应以较高的收率合成了关键中间体2-乙酰基茚衍生物。
补充资料:氯化烯丙基钯(II)二聚物
CAS:12012-95-2
分子式:C6H10Cl2Pd2
分子质量:365.89
中文名称:氯化烯丙基钯(II)二聚物
英文名称:Palladium chloride, allyl- (dimer);Allyl palladium chloride dimer;allylpalladium chloride dimer;allylpaladium;allylpaladium chloride dimer
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