Effect of topological patterning on self-rolling of nanomembranes

Cheng Chen; Pengfei Song; Fanchao Meng; Pengfei Ou; Xinyu Liu; Jun Song

doi:10.1088/1361-6528/aac8fe

Effect of topological patterning on self-rolling of nanomembranes

Cheng Chen, Pengfei Song, Fanchao Meng, Pengfei Ou, Xinyu Liu, Jun Song

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

7 Citations (Scopus)

Abstract

The effects of topological patterning (i.e., grating and rectangular patterns) on the self-rolling behaviors of heteroepitaxial strained nanomembranes have been systematically studied. An analytical modeling framework, validated through finite-element simulations, has been formulated to predict the resultant curvature of the patterned nanomembrane as the pattern thickness and density vary. The effectiveness of the grating pattern in regulating the rolling direction of the nanomembrane has been demonstrated and quantitatively assessed. Further to the rolling of nanomembranes, a route to achieve predictive design of helical structures has been proposed and showcased. The present study provides new knowledge and mechanistic guidance towards predictive control and tuning of roll-up nanostructures via topological patterning.

Original language	English
Article number	345301
Journal	Nanotechnology
Volume	29
Issue number	34
DOIs	https://doi.org/10.1088/1361-6528/aac8fe
Publication status	Published - 14 Jun 2018
Externally published	Yes

Keywords

anisotropic
helical structures
roll-up
strained nanomembranes
topological patterning

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abstract = "The effects of topological patterning (i.e., grating and rectangular patterns) on the self-rolling behaviors of heteroepitaxial strained nanomembranes have been systematically studied. An analytical modeling framework, validated through finite-element simulations, has been formulated to predict the resultant curvature of the patterned nanomembrane as the pattern thickness and density vary. The effectiveness of the grating pattern in regulating the rolling direction of the nanomembrane has been demonstrated and quantitatively assessed. Further to the rolling of nanomembranes, a route to achieve predictive design of helical structures has been proposed and showcased. The present study provides new knowledge and mechanistic guidance towards predictive control and tuning of roll-up nanostructures via topological patterning.",

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AU - Chen, Cheng

AU - Song, Pengfei

AU - Meng, Fanchao

AU - Ou, Pengfei

AU - Liu, Xinyu

AU - Song, Jun

PY - 2018/6/14

Y1 - 2018/6/14

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AB - The effects of topological patterning (i.e., grating and rectangular patterns) on the self-rolling behaviors of heteroepitaxial strained nanomembranes have been systematically studied. An analytical modeling framework, validated through finite-element simulations, has been formulated to predict the resultant curvature of the patterned nanomembrane as the pattern thickness and density vary. The effectiveness of the grating pattern in regulating the rolling direction of the nanomembrane has been demonstrated and quantitatively assessed. Further to the rolling of nanomembranes, a route to achieve predictive design of helical structures has been proposed and showcased. The present study provides new knowledge and mechanistic guidance towards predictive control and tuning of roll-up nanostructures via topological patterning.

KW - anisotropic

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Effect of topological patterning on self-rolling of nanomembranes

Abstract

Keywords

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