Molecule-based electrorheological material assembled using β-cyclodextrin as substrate

Yan Li Shang; Yun Ling Jia; Yun Ma; Jun Ran Li; Shao Hua Zhang; Ming Xiu Li

Molecule-based electrorheological material assembled using β-cyclodextrin as substrate

Yan Li Shang
, Yun Ling Jia
, Yun Ma
, Jun Ran Li^*
, Shao Hua Zhang
, Ming Xiu Li

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Molecule-based electrorheological (ER) materials as a novel type of ER materials, the inclusion compound [H2(β-CD-A)-PTA] between p-toluenesulfonic acid (PTA, guest) and H2(β-CD-A) (host) that is dicarboxylic acid of β-cyclodextrin (β-CD), and the rare earth (RE) complexes [(β-CD-A)-PTA]3RE2 (RE=La, Gd, Y) of H2(β-CD-A)-PTA, were synthesized. The ER performance and dielectric property of the materials were studied. Our results show that the molecule-based ER materials assembled using β-cyclodextrin as a substrate, especially the inclusion compound and its rare earth (RE) complexes exhibit clear ER effect. The inclusion PTA can markedly enhance the ER performance of H2(β-CD-A) material. The ER activity of the yttrium complex is the highest among these materials. The characteristic of the molecule in molecule-based ER materials is an important factor in influencing ER property.

Original language	English
Pages (from-to)	43-50
Number of pages	8
Journal	Korea Australia Rheology Journal
Volume	22
Issue number	1
Publication status	Published - 2010
Externally published	Yes

Keywords

Chemical synthesis
Electrorheological material
Electrorheological property

Cite this

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title = "Molecule-based electrorheological material assembled using β-cyclodextrin as substrate",

abstract = "Molecule-based electrorheological (ER) materials as a novel type of ER materials, the inclusion compound [H2(β-CD-A)-PTA] between p-toluenesulfonic acid (PTA, guest) and H2(β-CD-A) (host) that is dicarboxylic acid of β-cyclodextrin (β-CD), and the rare earth (RE) complexes [(β-CD-A)-PTA]3RE2 (RE=La, Gd, Y) of H2(β-CD-A)-PTA, were synthesized. The ER performance and dielectric property of the materials were studied. Our results show that the molecule-based ER materials assembled using β-cyclodextrin as a substrate, especially the inclusion compound and its rare earth (RE) complexes exhibit clear ER effect. The inclusion PTA can markedly enhance the ER performance of H2(β-CD-A) material. The ER activity of the yttrium complex is the highest among these materials. The characteristic of the molecule in molecule-based ER materials is an important factor in influencing ER property.",

keywords = "Chemical synthesis, Electrorheological material, Electrorheological property",

author = "Shang, \{Yan Li\} and Jia, \{Yun Ling\} and Yun Ma and Li, \{Jun Ran\} and Zhang, \{Shao Hua\} and Li, \{Ming Xiu\}",

year = "2010",

language = "English",

volume = "22",

pages = "43--50",

journal = "Korea Australia Rheology Journal",

issn = "1226-119X",

publisher = "Korean Society of Rheology, Australian Society of Rheology",

number = "1",

}

TY - JOUR

T1 - Molecule-based electrorheological material assembled using β-cyclodextrin as substrate

AU - Shang, Yan Li

AU - Jia, Yun Ling

AU - Ma, Yun

AU - Li, Jun Ran

AU - Zhang, Shao Hua

AU - Li, Ming Xiu

PY - 2010

Y1 - 2010

N2 - Molecule-based electrorheological (ER) materials as a novel type of ER materials, the inclusion compound [H2(β-CD-A)-PTA] between p-toluenesulfonic acid (PTA, guest) and H2(β-CD-A) (host) that is dicarboxylic acid of β-cyclodextrin (β-CD), and the rare earth (RE) complexes [(β-CD-A)-PTA]3RE2 (RE=La, Gd, Y) of H2(β-CD-A)-PTA, were synthesized. The ER performance and dielectric property of the materials were studied. Our results show that the molecule-based ER materials assembled using β-cyclodextrin as a substrate, especially the inclusion compound and its rare earth (RE) complexes exhibit clear ER effect. The inclusion PTA can markedly enhance the ER performance of H2(β-CD-A) material. The ER activity of the yttrium complex is the highest among these materials. The characteristic of the molecule in molecule-based ER materials is an important factor in influencing ER property.

AB - Molecule-based electrorheological (ER) materials as a novel type of ER materials, the inclusion compound [H2(β-CD-A)-PTA] between p-toluenesulfonic acid (PTA, guest) and H2(β-CD-A) (host) that is dicarboxylic acid of β-cyclodextrin (β-CD), and the rare earth (RE) complexes [(β-CD-A)-PTA]3RE2 (RE=La, Gd, Y) of H2(β-CD-A)-PTA, were synthesized. The ER performance and dielectric property of the materials were studied. Our results show that the molecule-based ER materials assembled using β-cyclodextrin as a substrate, especially the inclusion compound and its rare earth (RE) complexes exhibit clear ER effect. The inclusion PTA can markedly enhance the ER performance of H2(β-CD-A) material. The ER activity of the yttrium complex is the highest among these materials. The characteristic of the molecule in molecule-based ER materials is an important factor in influencing ER property.

KW - Chemical synthesis

KW - Electrorheological material

KW - Electrorheological property

UR - https://www.scopus.com/pages/publications/77955562265

M3 - Article

AN - SCOPUS:77955562265

SN - 1226-119X

VL - 22

SP - 43

EP - 50

JO - Korea Australia Rheology Journal

JF - Korea Australia Rheology Journal

IS - 1

ER -

Molecule-based electrorheological material assembled using β-cyclodextrin as substrate

Abstract

Keywords

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