1) mesoporous silica
中孔氧化硅
1.
By a one-step co-condensation route using hexadecylamine as the template, various organic groups were successfully immobilized on the surface of hexagonal mesoporous silicas (HMS) along with Co2+ ions incorporated into the framework.
以十六胺为模板剂,采用一步共聚的方法,室温下合成出了骨架含金属钴离子,表面连接疏水性有机基团的双功能化中孔氧化硅材料,并在环己烷液相氧化反应中考察了该材料的催化活性。
2.
The recent progress in the supramolecular-templating synthesis of ordered mesoporous silica has been reviewed.
本文综述了近年来利用超分子模板法合成有序中孔氧化硅的研究进展 ,着重评述了以阳离子型表面活性剂和聚氧乙烯基嵌段共聚物为模板剂时对中孔氧化硅内部结构 (包括中孔结构及其结构参数 )与外观形貌的调控 ,并对其今后的发展作了展望。
2) mesoporous organosilicas
中孔二氧化硅
1.
With these alkoxy-functionalized dendrimers and TEOS as a silica source,a new organic-inorganic hybrid periodic mesoporous organosilicas was pre-pared through su.
以二苯基二氯硅烷为原料,通过交替进行烯丙基化和硅氢加成反应合成了一类新型以二苯基为核的端烯丙基G0-G2代碳硅烷树枝状化合物,并对其外围进行了乙氧基功能化修饰;尝试以这种功能化的碳硅烷型树枝状化合物和TEOS混合物为硅源,以CTAB和EO20-PO70-EO20为模板,对采用共水解法制备新型有机-无机杂化中孔二氧化硅进行了初步研究。
3) copper/mesoporous silica
铜/中孔二氧化硅
4) mesoporous silica
介孔氧化硅
1.
Organo-functionalized mesoporous silica has great potentials in practical applications such as catalysis,adsorption and separation,biochemistry and electronics.
有机功能化的介孔氧化硅在催化领域、吸附分离、生物化学和电子学等领域有广泛的应用前景。
2.
The structure of mesoporous silica before and after functionalization was investigated by high-resolution transmission electron microscopy(HRTEM),fourier transfor.
采用直接模板法,以三嵌段共聚物P123作为模板剂,酸性条件下制备出了具有规则孔道结构的介孔氧化硅。
3.
The mesoporous silica material (SH), with controlled pore size has been synthesized using hexadecyltriethylammon um bromide (CTAB) as template under acidic condition at room temperature.
以十六烷基三甲基溴化铵作模板剂,采用酸性常温法制备介孔氧化硅材料SH,通过添加TMB扩孔剂对其进行改性得到SH+TMB,分别测试其吸湿、放湿性能,并采用小角度XRD、TEM、B。
5) OPS
[ɔps]
氧化多孔硅
1.
Uniform Ag nano-particles was synthesized within nanoscale pores of oxidized porous silicon (OPS) by a simple solution immersion-thermal decomposition approach,forming the compound structure of Ag/OPS/silicon.
通过简单的溶液浸泡-热分解方法成功地在氧化多孔硅的孔中沉积了纳米银粒子,形成了银/氧化多孔硅/硅的复合结构。
2.
A copper inductor based on oxidized porous silicon(OPS)insulating technology is presented.
提出了一种基于氧化多孔硅厚膜隔离技术的Cu电感。
6) porous silica
多孔氧化硅
1.
Preparation of porous silica with nanofibrous morphology from chrysotile;
采用纤蛇纹石制备纳米纤维状多孔氧化硅
2.
The phase-separation theory was used to prepare the porous silica from silicic gel derived from fly ash.
利用相分离原理,以粉煤灰经硅铝分离后所得的硅酸凝胶为原料,选用聚乙烯醇为造孔剂,硝酸为催化剂,成功地制备了多孔氧化硅。
3.
The influence of CTAB concentration on the structure and properties of mesoporous silica films is studied as well.
报道了一种新型纳米多孔氧化硅薄膜的制备方法 ,并详细探讨了表面活性剂浓度对介孔氧化硅薄膜结构和性能的影响。
补充资料:氧化硅
CAS:11126-22-0
中文名称:氧化硅
中文名称:氧化硅
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