Reliable and large curvature actuation from gradient-structured graphene oxide

Gengzhi Sun; Yongzheng Pan; Zhaoyao Zhan; Lianxi Zheng; Jingyu Lu; John H.L. Pang; Lin Li; Weimin Huang

doi:10.1021/jp207986m

Reliable and large curvature actuation from gradient-structured graphene oxide

Gengzhi Sun, Yongzheng Pan, Zhaoyao Zhan, Lianxi Zheng, Jingyu Lu, John H.L. Pang, Lin Li, Weimin Huang

Nanyang Technological University

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

35 Scopus citations

Abstract

By utilizing the density gradient and upward convection flow induced by solvent evaporation, the exfoliated graphene oxide (GO) nanosheets in aqueous solution were assembled into a hierarchically structured GO paper, by which a temperature-triggered actuator was then fabricated. When stimulated by temperature, the GO paper could bend to a large curvature. At 100 °C, the curvature could reach 0.36 mm^-1 within 60 s. The mechanical properties of as-prepared actuators have also been studied. The actuator exhibited a stress of 1.4 MPa when exposed to a temperature of 80 °C and showed almost identical actuating stresses in cyclic measurements. The actuation mechanism is directly related to the loss/acquisition of the interlamellar water during temperature change. Reliable and large curvature actuation could be attributed to the unique gradient structure of the pure GO papers.

Original language	English
Pages (from-to)	23741-23744
Number of pages	4
Journal	Journal of Physical Chemistry C
Volume	115
Issue number	48
DOIs	https://doi.org/10.1021/jp207986m
State	Published - 8 Dec 2011
Externally published	Yes

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title = "Reliable and large curvature actuation from gradient-structured graphene oxide",

abstract = "By utilizing the density gradient and upward convection flow induced by solvent evaporation, the exfoliated graphene oxide (GO) nanosheets in aqueous solution were assembled into a hierarchically structured GO paper, by which a temperature-triggered actuator was then fabricated. When stimulated by temperature, the GO paper could bend to a large curvature. At 100 °C, the curvature could reach 0.36 mm-1 within 60 s. The mechanical properties of as-prepared actuators have also been studied. The actuator exhibited a stress of 1.4 MPa when exposed to a temperature of 80 °C and showed almost identical actuating stresses in cyclic measurements. The actuation mechanism is directly related to the loss/acquisition of the interlamellar water during temperature change. Reliable and large curvature actuation could be attributed to the unique gradient structure of the pure GO papers.",

author = "Gengzhi Sun and Yongzheng Pan and Zhaoyao Zhan and Lianxi Zheng and Jingyu Lu and Pang, {John H.L.} and Lin Li and Weimin Huang",

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T1 - Reliable and large curvature actuation from gradient-structured graphene oxide

AU - Sun, Gengzhi

AU - Pan, Yongzheng

AU - Zhan, Zhaoyao

AU - Zheng, Lianxi

AU - Lu, Jingyu

AU - Pang, John H.L.

AU - Li, Lin

AU - Huang, Weimin

PY - 2011/12/8

Y1 - 2011/12/8

N2 - By utilizing the density gradient and upward convection flow induced by solvent evaporation, the exfoliated graphene oxide (GO) nanosheets in aqueous solution were assembled into a hierarchically structured GO paper, by which a temperature-triggered actuator was then fabricated. When stimulated by temperature, the GO paper could bend to a large curvature. At 100 °C, the curvature could reach 0.36 mm-1 within 60 s. The mechanical properties of as-prepared actuators have also been studied. The actuator exhibited a stress of 1.4 MPa when exposed to a temperature of 80 °C and showed almost identical actuating stresses in cyclic measurements. The actuation mechanism is directly related to the loss/acquisition of the interlamellar water during temperature change. Reliable and large curvature actuation could be attributed to the unique gradient structure of the pure GO papers.

AB - By utilizing the density gradient and upward convection flow induced by solvent evaporation, the exfoliated graphene oxide (GO) nanosheets in aqueous solution were assembled into a hierarchically structured GO paper, by which a temperature-triggered actuator was then fabricated. When stimulated by temperature, the GO paper could bend to a large curvature. At 100 °C, the curvature could reach 0.36 mm-1 within 60 s. The mechanical properties of as-prepared actuators have also been studied. The actuator exhibited a stress of 1.4 MPa when exposed to a temperature of 80 °C and showed almost identical actuating stresses in cyclic measurements. The actuation mechanism is directly related to the loss/acquisition of the interlamellar water during temperature change. Reliable and large curvature actuation could be attributed to the unique gradient structure of the pure GO papers.

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Reliable and large curvature actuation from gradient-structured graphene oxide

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