Dielectric gels with ultra-high dielectric constant, low elastic modulus, and excellent transparency

Lei Shi; Ruisen Yang; Shiyao Lu; Kun Jia; Chunhui Xiao; Tongqing Lu; Tiejun Wang; Wei Wei; Hui Tan; Shujiang Ding

doi:10.1038/s41427-018-0077-7

Dielectric gels with ultra-high dielectric constant, low elastic modulus, and excellent transparency

Lei Shi
, Ruisen Yang
, Shiyao Lu
, Kun Jia
, Chunhui Xiao
, Tongqing Lu
, Tiejun Wang
, Wei Wei
, Hui Tan
, Shujiang Ding

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

83 Scopus citations

Abstract

We designed dielectric gels, a new type of polymer-based dielectric material. By using solvents with high dielectric constants, the gels achieve a unique combination of ultra-high dielectric constant, low elastic modulus, and excellent transparency, which are extremely challenging or impossible to realize with traditional polymer dielectrics. The gels exhibit high stretchability (stretch of approximately 10) and low mechanical hysteresis. We demonstrated the use of the dielectric gels by fabricating a bioinspired tunable lens, the focal length of which can be adjusted by varying the applied voltage. We believe that the dielectric gels, as a new type of polymer dielectric, offer new opportunities for soft robotics, sensors, electronics, optics, and biomimetics.

Original language	English
Pages (from-to)	821-826
Number of pages	6
Journal	NPG Asia Materials
Volume	10
Issue number	8
DOIs	https://doi.org/10.1038/s41427-018-0077-7
State	Published - 1 Aug 2018

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title = "Dielectric gels with ultra-high dielectric constant, low elastic modulus, and excellent transparency",

abstract = "We designed dielectric gels, a new type of polymer-based dielectric material. By using solvents with high dielectric constants, the gels achieve a unique combination of ultra-high dielectric constant, low elastic modulus, and excellent transparency, which are extremely challenging or impossible to realize with traditional polymer dielectrics. The gels exhibit high stretchability (stretch of approximately 10) and low mechanical hysteresis. We demonstrated the use of the dielectric gels by fabricating a bioinspired tunable lens, the focal length of which can be adjusted by varying the applied voltage. We believe that the dielectric gels, as a new type of polymer dielectric, offer new opportunities for soft robotics, sensors, electronics, optics, and biomimetics.",

author = "Lei Shi and Ruisen Yang and Shiyao Lu and Kun Jia and Chunhui Xiao and Tongqing Lu and Tiejun Wang and Wei Wei and Hui Tan and Shujiang Ding",

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T1 - Dielectric gels with ultra-high dielectric constant, low elastic modulus, and excellent transparency

AU - Shi, Lei

AU - Yang, Ruisen

AU - Lu, Shiyao

AU - Jia, Kun

AU - Xiao, Chunhui

AU - Lu, Tongqing

AU - Wang, Tiejun

AU - Wei, Wei

AU - Tan, Hui

AU - Ding, Shujiang

PY - 2018/8/1

Y1 - 2018/8/1

N2 - We designed dielectric gels, a new type of polymer-based dielectric material. By using solvents with high dielectric constants, the gels achieve a unique combination of ultra-high dielectric constant, low elastic modulus, and excellent transparency, which are extremely challenging or impossible to realize with traditional polymer dielectrics. The gels exhibit high stretchability (stretch of approximately 10) and low mechanical hysteresis. We demonstrated the use of the dielectric gels by fabricating a bioinspired tunable lens, the focal length of which can be adjusted by varying the applied voltage. We believe that the dielectric gels, as a new type of polymer dielectric, offer new opportunities for soft robotics, sensors, electronics, optics, and biomimetics.

AB - We designed dielectric gels, a new type of polymer-based dielectric material. By using solvents with high dielectric constants, the gels achieve a unique combination of ultra-high dielectric constant, low elastic modulus, and excellent transparency, which are extremely challenging or impossible to realize with traditional polymer dielectrics. The gels exhibit high stretchability (stretch of approximately 10) and low mechanical hysteresis. We demonstrated the use of the dielectric gels by fabricating a bioinspired tunable lens, the focal length of which can be adjusted by varying the applied voltage. We believe that the dielectric gels, as a new type of polymer dielectric, offer new opportunities for soft robotics, sensors, electronics, optics, and biomimetics.

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DO - 10.1038/s41427-018-0077-7

M3 - 文章

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SP - 821

EP - 826

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Dielectric gels with ultra-high dielectric constant, low elastic modulus, and excellent transparency

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