1) Regenerable chitin
可再生甲壳质
1.
The adsorption of free acid by regenerable chitin has been followed by electric conductance measurement.
利用电导实验技术,跟踪可再生甲壳质吸附低浓度游离酸的行为。
2.
adsorption of dyes from waste-water by regenerable chtin was describedThe new type of adsorbent could be regenerated ten times and its activity is not obviously decreasedThe experimental results showed that the regenerable chitin had a good ability of regenerationThe adsorption center of the regenerable chitin was the free surfaces amino
本文研究可再生甲壳质对染料废水的吸附性能。
3.
Studying and applying situation of adsorption Characteristics of regenerable chitin are reviewed.
本文综述了可再生甲壳质吸附特性研究的概况,介绍了可再生甲壳质吸附阴离子染料、有机酸、Cr~(6+)、低浓度无机酸等特性。
2) regenerable chitin
可再生甲壳素
1.
The influences of pH value and added salt of the system, as well as the active groups of the regenerable chitin on the adsorption of Cr(Ⅵ) by regenerable chitin have been investigated.
可再生甲壳素吸附铬(Ⅵ)的特性研究陈炳稔*汤又文李国明万春华(华南师范大学化学系广州510631)关键词可再生甲壳素,制备,铬(Ⅵ),吸附1997-08-19收稿,1997-12-23修回广东省科委及高教厅资助课题利用甲壳素作为铬(Ⅵ。
2.
The adsorption of low concentration of free acid by regenerable chitin was followed by electric conductance measurement.
介质对可再生甲壳素吸附低浓度游离酸的影响陈炳稔*何广平凌莫育(华南师范大学化学系广州510631)关键词可再生甲壳素,介质,吸附,游离酸1997-03-31收稿,1997-07-22修回国家教育委员会基金资助课题可再生甲壳素是无毒无味。
3) chitin
[英]['kaitin] [美]['kaɪtɪn]
[生]甲壳质
4) CTS
可溶性甲壳质
1.
PREPARATION OF CTS AND ITS ADSORPTION TO Cu(Ⅱ);
可溶性甲壳质的制备及其对铜离子的吸附
5) derivative of chitin
甲壳质衍生物
1.
Objective To study the effect of derivative of chitin on fracture healing and further investigate its therapetic mechanism.
目的 探讨甲壳质衍生物在骨折愈合中的作用,并进一步探究甲壳质衍生物对骨折愈合的作用机制。
6) chitin derivatives
甲壳质衍生物
1.
Experimental study of chitin derivatives on promoting fracture healing;
甲壳质衍生物促进骨折愈合的实验研究
2.
Influence of chitin derivatives on blood biochemical indexes related to fracture healing in New Zealand rabbits;
甲壳质衍生物对新西兰兔骨缺损愈合相关血生化指标的影响
补充资料:甲壳质
甲壳质 chitin 聚乙酰氨基葡萄糖的生物高分子聚合物。又称几丁质、甲壳素、壳多糖。主要用作放线菌培养和层析材料。可溶性甲壳质主要用于水的净化、纺织品上浆、印花套色助染和纸张上光等,其水解产物氨基葡萄糖可作生化试剂和制药原料。甲壳质广泛存在于无脊椎动物的外壳和真菌的菌丝体、以及原生动物和某些绿藻中,以虾、蟹壳含量最多。最早于1811年法国H.布拉孔诺从蘑菇中分离获得,1948年日本取得蟹壳生产脱乙酰甲壳质的技术专利后,才为其工业生产奠定基础。 |
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