1) organic gel carbonization
有机凝胶碳化
1.
Several mesoporous control technologies of carbon materials have been summarized:catalytic activation,polymer blend carbonization,organic gel carbonization and template carbonization.
综合评述了国内外炭材料中孔控制方面的发展情况,总结提出了炭材料的几种中孔控制技术;催化活化法、共混聚合物碳化法、有机凝胶碳化法和模板碳化法。
2) organogel
[ɔ:'ɡænədʒel]
有机凝胶
1.
Effect of Solvent and Molecular Structure on the Enhanced Fluorescence and Supramolecular Chirality of Schiff Bases in Organogels;
溶剂和分子结构对席夫碱分子在有机凝胶中的荧光增强和超分子手性的影响(英文)
2.
Preparation of Nano-materials by using Self-assembly of Organogel;
有机凝胶自组装模板法制备纳米材料
3.
It was found that it could self-assemble into transparent organogels in benzene,CCl4,butyl acetate and DMF.
设计合成了双胆固醇取代Schiff碱衍生物,发现该化合物能在苯、CCl4、乙酸丁酯和DMF中自组装形成透明的有机凝胶。
3) organogels
有机凝胶
1.
Several types of gelators and organogels formed by the gelators in organic solvents were reviewed in this article.
较系统地综述了有机凝胶因子的种类及其在有机溶剂中聚集与自我组装 ,形成有机凝胶的研究进展。
2.
Organogels are materials that consist of a small amount of an gelator and organic liquid.
有机凝胶是由胶凝剂和有机溶剂形成的一类软固体材料,其中胶凝剂分子通过氢键、疏溶剂、范德华力、静电、配位、偶极、或π-π堆积等特殊的弱相互作用自组装形成一维结构,这些一维结构经过交联缠绕而形成三维网络结构,从而使有机溶剂凝胶化。
4) gel pre-carbonization
凝胶预碳化
1.
6Bi4Ti4O15) nanocrystalline powder with small particle size and good dispersion was prepared via the gel pre-carbonization sol-gel method.
用凝胶预碳化处理工艺的溶胶-凝胶法制备了晶粒粒径小且分散性能较好的钙锶铋钛(Ca0。
5) Carbonized RF aerogels(CRF aerogels)
碳化气凝胶
1.
Carbonized RF aerogels(CRF aerogels) have large specific area, good conductivityand excellent electro-chemical stability.
其政化产物碳化气凝胶(CRF气凝胶)具有大的比表面积、好的导电性和电化学稳定性,成为制备超级电化学双层电容器也(SEDLCs)的理想电极材料。
6) colloidal organic carbon
胶体有机碳
1.
Analysis of colloidal organic carbon content and its influencing factors in the waters of Taihu Lake in spring;
太湖春季水体中的胶体有机碳含量及影响因素分析
2.
Temporal and spatial changes of the content of colloidal organic carbon in Taihu Lake,China;
太湖典型湖区中胶体有机碳浓度的时空变化
补充资料:Sds-聚丙烯酰胺凝胶电泳凝胶电泳
sds-聚丙烯酰胺凝胶电泳(sds-page,sodium dodecyl sulfate-polyacrylamide gel electrohoresis)
在有去污剂十二烷基硫酸钠存在下的聚丙烯酰胺凝胶电泳。sds-page只是按照分子大小分离的,而不是根据分子所带的电荷和大小分离的。
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