Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials
Recent studies on nanomechanical devices based on low-dimensional nanomaterials have revealed several different types of thermal fluctuation gradient induced tangential entropic forces (TEFs), including expulsion force, edge force, thermophoretic force, nanodurotaxis force, etc. While all these forc...
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sg-ntu-dr.10356-1617852022-09-20T02:49:14Z Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials Zhu, Fangyan Leng, Jiantao Jiang, Jin-Wu Chang, Tienchong Zhang, Tongyi Gao, Huajian School of Mechanical and Aerospace Engineering Institute of High Performance Computing, A*STAR Engineering::Mechanical engineering Thermal-Fluctuation Gradient Induced Force Two-Dimensional Materials Recent studies on nanomechanical devices based on low-dimensional nanomaterials have revealed several different types of thermal fluctuation gradient induced tangential entropic forces (TEFs), including expulsion force, edge force, thermophoretic force, nanodurotaxis force, etc. While all these forces originate from thermal fluctuation gradients, they can take different forms for different problems and have been treated case-by-case in the literature. Here, we develop a unified theoretical framework for TEFs in layered low-dimensional materials. In particular, we derive explicit analytical solutions for TEFs in layered two-dimensional materials and validate them with molecular dynamics simulations for various bilayers composed of graphene, graphyne, hexagonal-boron nitride (h-BN), boron-carbon-nitride (BCN), and double walled nanotubes. We present also approximate solutions to TEFs in hetero- or substrate-supported-bilayers based on a solution-guided machine learning (SGML) technique. The developed concept for TEFs is unique to nanomechanical systems and may serve as one of the founding pillars of nanomechanics. Agency for Science, Technology and Research (A*STAR) Nanyang Technological University T.C. acknowledges financial support from the NSF of China (Nos. 12132008, 11872238), the Innovation Program of Shanghai Municipal Education Commission (No. 2017-01-07-00-09-E00019) and the Program of Shanghai Academic Research Leader (No. 19XD1401500), and the Key Research Project of Zhejiang Laboratory (No. 2021PE0AC02). H.G. acknowledges a research start-up grant (002479-00001) from Nanyang Technological University and the Agency for Science, Technology and Research (A*STAR). 2022-09-20T02:49:14Z 2022-09-20T02:49:14Z 2022 Journal Article Zhu, F., Leng, J., Jiang, J., Chang, T., Zhang, T. & Gao, H. (2022). Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials. Journal of the Mechanics and Physics of Solids, 163, 104871-. https://dx.doi.org/10.1016/j.jmps.2022.104871 0022-5096 https://hdl.handle.net/10356/161785 10.1016/j.jmps.2022.104871 2-s2.0-85126987804 163 104871 en 002479-00001 Journal of the Mechanics and Physics of Solids © 2022 Published by Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Thermal-Fluctuation Gradient Induced Force Two-Dimensional Materials Zhu, Fangyan Leng, Jiantao Jiang, Jin-Wu Chang, Tienchong Zhang, Tongyi Gao, Huajian Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials |
| description |
Recent studies on nanomechanical devices based on low-dimensional nanomaterials have revealed several different types of thermal fluctuation gradient induced tangential entropic forces (TEFs), including expulsion force, edge force, thermophoretic force, nanodurotaxis force, etc. While all these forces originate from thermal fluctuation gradients, they can take different forms for different problems and have been treated case-by-case in the literature. Here, we develop a unified theoretical framework for TEFs in layered low-dimensional materials. In particular, we derive explicit analytical solutions for TEFs in layered two-dimensional materials and validate them with molecular dynamics simulations for various bilayers composed of graphene, graphyne, hexagonal-boron nitride (h-BN), boron-carbon-nitride (BCN), and double walled nanotubes. We present also approximate solutions to TEFs in hetero- or substrate-supported-bilayers based on a solution-guided machine learning (SGML) technique. The developed concept for TEFs is unique to nanomechanical systems and may serve as one of the founding pillars of nanomechanics. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhu, Fangyan Leng, Jiantao Jiang, Jin-Wu Chang, Tienchong Zhang, Tongyi Gao, Huajian |
| format |
Article |
| author |
Zhu, Fangyan Leng, Jiantao Jiang, Jin-Wu Chang, Tienchong Zhang, Tongyi Gao, Huajian |
| author_sort |
Zhu, Fangyan |
| title |
Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials |
| title_short |
Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials |
| title_full |
Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials |
| title_fullStr |
Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials |
| title_full_unstemmed |
Thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials |
| title_sort |
thermal-fluctuation gradient induced tangential entropic forces in layered two-dimensional materials |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161785 |
| _version_ |
1745574631689945088 |