Electro-rheological performance of a novel molecule-based electro-rheological material

CORC > 北京大学 > 化学与分子工程学院

	Electro-rheological performance of a novel molecule-based electro-rheological material
	Shang, Yan-Li ; Chen, Ming-Xing ; Su, Yan-Ru ; Liao, Fu-Hui ; Li, Jun-Ran
刊名	beijing ligong daxue xuebaotransaction of beijing institute of technology
	2013
英文摘要	A novel type of molecule-based electrorheological (ER) material was synthesized using ??-cyclodextrin (??-CD), sulfo-salicylic acid and Y(NO3)3 as original materials by a solid reaction, which includes the inclusion compound of ??-CD (host) and sulfo-salicylic acid (guest) and the corresponding coordination compound. The compositions of the material were confirmed by the measures of elemental analyses, IR spectra and XRD analyses of materials. The relationships between ER performance with the composition and dielectric property of the materials were studied. Results show that the formation of the inclusion compound and coordination compound could enhance markedly ER performance of the novel material with ??-CD as the host. The inclusion compound has higher ER activity than that of the coordination compound. The composition of a material is an important factor in influencing ER property of the material.; EI; 0; 3; 318-322+330; 33
语种	英语
内容类型	期刊论文
源URL	[http://ir.pku.edu.cn/handle/20.500.11897/410538]
专题	化学与分子工程学院
推荐引用方式 GB/T 7714	Shang, Yan-Li,Chen, Ming-Xing,Su, Yan-Ru,et al. Electro-rheological performance of a novel molecule-based electro-rheological material[J]. beijing ligong daxue xuebaotransaction of beijing institute of technology,2013.
APA	Shang, Yan-Li,Chen, Ming-Xing,Su, Yan-Ru,Liao, Fu-Hui,&Li, Jun-Ran.(2013).Electro-rheological performance of a novel molecule-based electro-rheological material.beijing ligong daxue xuebaotransaction of beijing institute of technology.
MLA	Shang, Yan-Li,et al."Electro-rheological performance of a novel molecule-based electro-rheological material".beijing ligong daxue xuebaotransaction of beijing institute of technology (2013).