(991056) 【分类号】: R318.08 【正文快照】: 水凝胶微球(HydrogCI microspheres,HMs)是法国近年来研制的一种颗粒栓塞剂,亲水性强,易通过导管及堵塞血管的截面,栓塞效果可靠[’]。
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(991056) 【分类号】: R318.08 【正文快照】: 水凝胶微球(HydrogCI microspheres,HMs)是法国近年来研制的一种颗粒栓塞剂,亲水性强,易通过导管及堵塞血管的截面,栓塞效果可靠[’]。
基于1个网页-相关网页
对进口水凝胶微球 HMS ; hydrogel microspheres
The phase transition temperature range of the self-crosslinked PNIPAM hydrogel microspheres was very narrow, and they had nearly noncontinuous phase transition behavior.
自交联PNIPAM水凝胶微球的相转变温度范围很窄,接近非连续体积相转变行为。
参考来源 - 相转变温度范围窄的聚(NIn addition, PNIPAM hydrogel nanoparticles network was obtained by high electro-dialysis under some experiments’conditions, maybe the network was crosslinked by covalent bond.
另外,在某些条件下制备的水凝胶微球通过高电场透析法后还获得了类网状物,这种类似网状物主要通过共价键连结成。
参考来源 - PNIPAM水凝胶微球的制备及其应用初探·2,447,543篇论文数据,部分数据来源于NoteExpress
本论文主要对基于高分子水凝胶微球为模板制备有机—无机复合材料进行了研究。
This dissertation mainly studies on the preparation of polymeric-inorganic composite microspheres of core-shell structure based on template method of polymeric hydrogel microspheres.
介绍了光敏感水凝胶、电敏感水凝胶、磁响应水凝胶微球的环境敏感原因和应用研究现状。
Further introduced include the sensitivity reasons and the research and application progress of light-sensitive hydrogel, electronic-sensitive hydrogel and magnetic responsive hydrogel microspheres.
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