1) pillared clay(PILC)
柱撑黏土
1.
When pillared clay(PILC) is used as the catalyst in Fenton oxidation process,the shortcomings existing in Fenton method such as catalysts easily loss,low pH value range are resolved,while maintaining the removal rate of organic pollutant maintained in Fenton method.
金属柱撑黏土(PILC)能够在保证Fenton法对有机污染物的去除功效的同时,较好地克服Fenton法催化剂易流失、适用pH范围小等缺点。
2) pillared interlayer clays
层柱黏土
1.
Immobilization of β-glucuronidase on pillared interlayer clays from bentonite
基于膨润土的层柱黏土固定β-葡萄糖醛酸苷酶的研究
3) pillared clays
柱撑粘土
1.
TiO_2 pillared clays were prepared by Sol-gel method at certain ratio of Ti(OC_4 H_9)_4 to HC1 modified by three different kinds of surfactants, such as polyvinyl alcohol (PVA), cetyltrimethyl ammonium bromide (CT-MAB) and dodecyl benzene sulfonic acid sodium salt (DBS).
本文分别采用阴离子、非离子、阳离子三种不同类型的表面活性剂对河北蒙脱石进行改性修饰,并以酞酸丁酯和盐酸分别为前驱物和酸催化剂,采用溶胶-凝胶法(Sol-gel)制备了不同表面活性剂修饰TiO_2柱撑粘土催化剂。
4) pillared clay
柱撑粘土
1.
Study situation of pillared clay and its applications in the environmental pollutants treatment;
柱撑粘土复合材料的研究进展及其在环境污染物治理方面的应用
2.
The pillared clay developed nanostructure when calcinated at 1100℃,which hada dimaeter of about 100~500nm for mul-lite and less than 100nm for spinel.
将聚羟基铝离子引入蒙脱石层间,制成柱撑粘土,将柱撑粘土在1100℃下煅烧,在煅烧过程中会形成纳米结构。
3.
Bimetal pillared clays with more amount of nickel was first prepared with a new method-growth.
生长法制得高镍含量二元金属柱撑粘土其插入粘土层间的柱高约 0 。
5) Al-PILC
铝层柱黏土
1.
Aluminum pillared interlayered clay (Al-PILC) calcined at 773 K was the most appropriate support for immobilization of horseradish peroxidase (HRP) among several materials investigated.
本文尝试了层柱黏土在酶固定化中的应用,探讨了以铝层柱黏土为载体固定辣根过氧化物酶的方法,取得了较满意的结果。
6) pillared montmorillonite
柱撑蒙脱土
1.
The influences of preparation and intercalation process of pillared reagent hydroxyl-Fe on the basal spacing of pillared montmorillonite (MMT) were studied.
考察柱撑蒙脱土层间距与羟基铁在制备及插层过程性能的关系,测定羟基铁插层蒙脱土过程溶液电导的变化规律;研究老化时间对羟基铁柱撑剂的粒度、电导及所制得的柱撑蒙脱土层间距的影响;碱化剂加入量对羟基铁柱撑剂粒度及所制得的柱撑蒙脱土层间距的影响。
补充资料:撑天柱
【撑天柱】
(物名)凡殿堂正面左右之二露柱也。见象器笺一。
(物名)凡殿堂正面左右之二露柱也。见象器笺一。
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