solid super acid 固体超强酸
solid super acid resin 固体强酸树脂
special solid super acid 特殊固体超强酸
complex solid super acid 复合团体超强酸
magnetic solid super-acid 磁性固体超强酸
solid super acid catalyst 固体超强酸
solid super acid catalyzed 固体超强酸催化
nanograde solid super acid 纳米固体超强酸
Solid Super Acid SO421TiO2 固体超强酸SO
Nowadays,most widely investigated solid acid catalysts were molecular sieve,ion exchange resin,heteropoly acid and solid super-acid etc,but they are exposed of obvious shortcomings in the use,such as high cost,low catalytic activity and low stability.
当前研究较多的固体酸催化剂主要有分子筛、离子交换树脂、杂多酸和固体超强酸等,但它们在使用中暴露出了明显的不足,比如制备成本高、催化活性低、稳定性不高等。
参考来源 - 生物质炭基固体酸催化剂的制备及催化性能研究The SO_4~(2-) /TiO_2 solid super-acid whose acid strength was to be -13.20< -11.99 was prepared.
首先制备了SO_4~(2-)/TiO_2固体超强酸,采用Hammett指示剂测定了其酸强度H_0为:-13.20<-11.99。
参考来源 - 涂膜电解法去除金属材料表面放射性污染技术研究·2,447,543篇论文数据,部分数据来源于NoteExpress
Isoamyl propionate was synthesized by using solid iron system super strong acid as catalyzer instead of inorganic acid in present research.
采用固体铁系超强酸代替无机酸作催化剂催化合成了丙酸异戊酯。
Solid super acid had advantages in using industry.
认为固体超强酸具有工业化优势。
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%。
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