A versatile, superelastic polystyrene/graphene capsule-like framework

Panpan Zhang; Lingxiao Lv; Yuan Liang; Jing Li; Huhu Cheng; Yang Zhao; Liangti Qu

doi:10.1039/c6ta03899a

A versatile, superelastic polystyrene/graphene capsule-like framework

Panpan Zhang
, Lingxiao Lv
, Yuan Liang
, Jing Li
, Huhu Cheng
, Yang Zhao^*
, Liangti Qu

^*此作品的通讯作者

化学与化工学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

26 引用（Scopus）

摘要

A rationally assembled polystyrene/graphene capsule-like framework (PS/G-CF) has been successfully fabricated through a self-assembly strategy. The closed-shell hollow capsule-like structure can be tuned for excellent mechanical properties, and is able to sustain large strain deformation of 95% and compressive stress of 165 kPa, superior to most of the reported polymer/graphene based foams, and it exhibits ultra-high pressure-responsive sensitivity in the low-pressure regime. Moreover, it also shows a superhydrophobic structure with a high adhesion to water droplets that allows the transfer of a single water droplet from a sticky superhydrophobic surface to another one. The versatile and superelastic PS/G-CF demonstrated here provides a promising material platform for multifunctional applications.

源语言	英语
页（从-至）	10118-10123
页数	6
期刊	Journal of Materials Chemistry A
卷	4
期	26
DOI	https://doi.org/10.1039/c6ta03899a
出版状态	已出版 - 2016

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 7 经济适用的清洁能源

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10.1039/c6ta03899a

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abstract = "A rationally assembled polystyrene/graphene capsule-like framework (PS/G-CF) has been successfully fabricated through a self-assembly strategy. The closed-shell hollow capsule-like structure can be tuned for excellent mechanical properties, and is able to sustain large strain deformation of 95\% and compressive stress of 165 kPa, superior to most of the reported polymer/graphene based foams, and it exhibits ultra-high pressure-responsive sensitivity in the low-pressure regime. Moreover, it also shows a superhydrophobic structure with a high adhesion to water droplets that allows the transfer of a single water droplet from a sticky superhydrophobic surface to another one. The versatile and superelastic PS/G-CF demonstrated here provides a promising material platform for multifunctional applications.",

author = "Panpan Zhang and Lingxiao Lv and Yuan Liang and Jing Li and Huhu Cheng and Yang Zhao and Liangti Qu",

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AU - Zhang, Panpan

AU - Lv, Lingxiao

AU - Liang, Yuan

AU - Li, Jing

AU - Cheng, Huhu

AU - Zhao, Yang

AU - Qu, Liangti

PY - 2016

Y1 - 2016

N2 - A rationally assembled polystyrene/graphene capsule-like framework (PS/G-CF) has been successfully fabricated through a self-assembly strategy. The closed-shell hollow capsule-like structure can be tuned for excellent mechanical properties, and is able to sustain large strain deformation of 95% and compressive stress of 165 kPa, superior to most of the reported polymer/graphene based foams, and it exhibits ultra-high pressure-responsive sensitivity in the low-pressure regime. Moreover, it also shows a superhydrophobic structure with a high adhesion to water droplets that allows the transfer of a single water droplet from a sticky superhydrophobic surface to another one. The versatile and superelastic PS/G-CF demonstrated here provides a promising material platform for multifunctional applications.

AB - A rationally assembled polystyrene/graphene capsule-like framework (PS/G-CF) has been successfully fabricated through a self-assembly strategy. The closed-shell hollow capsule-like structure can be tuned for excellent mechanical properties, and is able to sustain large strain deformation of 95% and compressive stress of 165 kPa, superior to most of the reported polymer/graphene based foams, and it exhibits ultra-high pressure-responsive sensitivity in the low-pressure regime. Moreover, it also shows a superhydrophobic structure with a high adhesion to water droplets that allows the transfer of a single water droplet from a sticky superhydrophobic surface to another one. The versatile and superelastic PS/G-CF demonstrated here provides a promising material platform for multifunctional applications.

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DO - 10.1039/c6ta03899a

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IS - 26

ER -

A versatile, superelastic polystyrene/graphene capsule-like framework

摘要

联合国可持续发展目标

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