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Electric Actuation of Nanostructured Thermoplastic Elastomer Gels with Ultralarge Electrostriction Coefficients
Author(s) -
Kim Bori,
Park Youn Duk,
Min Kyoungho,
Lee Jin Hong,
Hwang Seung Sang,
Hong Soon Man,
Kim Bong Hoon,
Kim Sang Ouk,
Koo Chong Min
Publication year - 2011
Publication title -
advanced functional materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.069
H-Index - 322
eISSN - 1616-3028
pISSN - 1616-301X
DOI - 10.1002/adfm.201100298
Subject(s) - electrostriction , materials science , electric field , dielectric , dielectric elastomers , elastomer , composite material , nanostructure , nanotechnology , piezoelectricity , optoelectronics , physics , quantum mechanics
Electrostriction facilitates the electric field‐stimulated mechanical actuation of dielectric materials. This work demonstrates that introduction of dielectric mismatched nanodomains to a dielectric elastomer results in an unexpected ultralarge electrostriction coefficient, enabling a large electromechanical strain response at a low electric field. This strong electrostrictive effect is attributed to the development of an inhomogeneous electric field across the film thickness due to the high density of interfaces between dielectric mismatched periodic nanoscale domains. The periodic nanostructure of the nanostructured gel also makes it possible to measure the true electromechanical strain from the dimensional change monitored via in situ synchrotron small angle X‐ray scattering. The work offers a promising pathway to design novel high performance dielectric elastomers as well as to understand the underlying operational mechanism of nanostructured multiphase electrostrictive systems.