super acid
英 [ˈsuːpə(r) ˈæsɪd]
美 [ˈsuːpər ˈæsɪd]
网络 超酸; 超强酸; 超强酸简称超酸; 质子酸
英英释义
noun
双语例句
- Study on the New Type Rare Earth Solid Super Acid Catalyst by IR Spectra
红外光谱研究新型稀土固体超强酸催化剂 - Synthesis of propel propionate from n-propyl alcohol and propane acid and solid super acid SO~ ( 2-)_4/ Fe_2O_3 as catalyst instead of sulphuric acid have been studied, the synthesis of catalyst and the condition of the synthesis of propyl propionate.
利用制备的固体超强酸SO2-4/Fe2O3代替浓硫酸作催化剂,将正丙酸和正丙醇酯化合成丙酸丙酯,讨论了催化剂的制备及合成丙酸丙酯的条件。 - Experimental results showed that sulfuric acid and p-toluene sulfonic catalyst had great effect on the membrane stability and the solid super acid catalyst had no effect on membrane stability.
研究结果表明,对甲苯磺酸及浓硫酸催化剂对复合膜的稳定性有非常明显的影响,固体超强酸催化剂基本上不影响复合膜的稳定性; - Reaction catalyzed by solid super acid to synthesize alkyl polyglycoside is reported. The best reaction activity of solid super acid catalyst is discussed. The conversion of glucose arrived to 99%.
报道了固体超强酸作催化剂合成烷基葡萄糖多苷的反应,并讨论了固体超强酸的最佳反应活性,葡萄糖转化率达99%。 - Catalytic Synthesis of Amyl Salicylate by Nano-scale Rare Earth Complex Super Acid
纳米稀土复合超强酸催化合成水杨酸戊酯 - The solid super acid heterogeneous catalyst SO_4~ ( 2-)/ ZrO2-TiO2 was synthesized and was used catalytic for the esterification of iso-butanol ( IBA) with methacrylic acid ( MAA) in the liquid-solid system. The effects of reaction conditions was investigated.
制备了固体超强酸SO4~(2-)/ZrO2&TiO2多相催化剂,用于催化甲基丙烯酸(MAA)与异丁醇(IBA)的酯化反应,并探讨了诸因素对产品产率的影响。 - The synthesis methods of Nipagin Esters Catalyzed by sulfuric acid, p-toluene sulfonic acid, ferric sul-fate hydrate, ferric chloride hexahydrate, aluminium chloride hexahydrate, rare earth compound, solid super acid and heteropoly acid were reviewed.
评述了采用硫酸、甲苯磺酸、合硫酸铁、水合三氯化铁、水合三氯化铝、土化合物、体超强酸和杂多酸等催化剂催化合成对羟基苯甲酸酯的方法。 - Octadecyl acrylate was synthesized by melt esterification from octadecyl alcohol and acrylic acid using solid super acid as catalyst.
以丙烯酸和十八碳醇为原料,采用固体超强酸SO42-/TiO2为催化剂及直接酯化法制备丙烯酸十八酯。 - Research Development of Solid Super Acid Catalyst
固体超强酸催化剂的研究进展 - Therefore, we prepared a series of solid super acid catalysts and studied their catalytic properties on coupling reaction at room temperature and atmospheric pressure.
为此,本实验制备了一系列固体酸催化剂,进而探索性的研究了该类催化剂在常温常压下,空气气氛中催化低碳烷烃的偶联反应。