Book chapter 550 views
Lattice and continuum based modeling of 2D materials
T. Mukhopadhyay,
A. Mahata,
Sondipon Adhikari 
Synthesis, Modeling, and Characterization of 2D Materials, and Their Heterostructures, Pages: 165 - 177
Swansea University Author:
Sondipon Adhikari
Full text not available from this repository: check for access using links below.
DOI (Published version): 10.1016/b978-0-12-818475-2.00009-x
Abstract
Hexagonal lattice–like structural forms are present in the nanostructures of several two-dimensional materials. The effective mechanical properties of these materials can be expressed on the basis of an equivalent continuum-based assumption. We focus on nanoscale analysis of the structures of such m...
| Published in: | Synthesis, Modeling, and Characterization of 2D Materials, and Their Heterostructures |
|---|---|
| ISBN: | 9780128184752 |
| Published: |
Elsevier
2020
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa54594 |
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2020-07-02T09:38:56Z |
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| last_indexed |
2020-08-25T03:19:30Z |
| id |
cronfa54594 |
| recordtype |
SURis |
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2020-08-24T11:21:21.5367226 v2 54594 2020-07-02 Lattice and continuum based modeling of 2D materials 4ea84d67c4e414f5ccbd7593a40f04d3 0000-0003-4181-3457 Sondipon Adhikari Sondipon Adhikari true false 2020-07-02 ACEM Hexagonal lattice–like structural forms are present in the nanostructures of several two-dimensional materials. The effective mechanical properties of these materials can be expressed on the basis of an equivalent continuum-based assumption. We focus on nanoscale analysis of the structures of such materials in this chapter based on a generalized analytical approach leading to closed-form formulae for the elastic moduli. Two different classes of single-layer materials (monoplanar and multiplanar) from a structural point of view are considered to demonstrate the results using these analytical formulae. The physics-based high-fidelity analytical models presented in this chapter are capable of obtaining the elastic properties in a computationally efficient manner for wide range of materials with hexagonal nanostructures. Book chapter Synthesis, Modeling, and Characterization of 2D Materials, and Their Heterostructures 165 177 Elsevier 9780128184752 Hexagonal nanostructures; Young’s modulus; shear modulus; Poisson’s ratio; analytical closed-form formula; egraphene; MoS2 26 6 2020 2020-06-26 10.1016/b978-0-12-818475-2.00009-x COLLEGE NANME Aerospace, Civil, Electrical, and Mechanical Engineering COLLEGE CODE ACEM Swansea University 2020-08-24T11:21:21.5367226 2020-07-02T10:36:29.5156432 T. Mukhopadhyay 1 A. Mahata 2 Sondipon Adhikari 0000-0003-4181-3457 3 |
| title |
Lattice and continuum based modeling of 2D materials |
| spellingShingle |
Lattice and continuum based modeling of 2D materials Sondipon Adhikari |
| title_short |
Lattice and continuum based modeling of 2D materials |
| title_full |
Lattice and continuum based modeling of 2D materials |
| title_fullStr |
Lattice and continuum based modeling of 2D materials |
| title_full_unstemmed |
Lattice and continuum based modeling of 2D materials |
| title_sort |
Lattice and continuum based modeling of 2D materials |
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4ea84d67c4e414f5ccbd7593a40f04d3 |
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4ea84d67c4e414f5ccbd7593a40f04d3_***_Sondipon Adhikari |
| author |
Sondipon Adhikari |
| author2 |
T. Mukhopadhyay A. Mahata Sondipon Adhikari |
| format |
Book chapter |
| container_title |
Synthesis, Modeling, and Characterization of 2D Materials, and Their Heterostructures |
| container_start_page |
165 |
| publishDate |
2020 |
| institution |
Swansea University |
| isbn |
9780128184752 |
| doi_str_mv |
10.1016/b978-0-12-818475-2.00009-x |
| publisher |
Elsevier |
| document_store_str |
0 |
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0 |
| description |
Hexagonal lattice–like structural forms are present in the nanostructures of several two-dimensional materials. The effective mechanical properties of these materials can be expressed on the basis of an equivalent continuum-based assumption. We focus on nanoscale analysis of the structures of such materials in this chapter based on a generalized analytical approach leading to closed-form formulae for the elastic moduli. Two different classes of single-layer materials (monoplanar and multiplanar) from a structural point of view are considered to demonstrate the results using these analytical formulae. The physics-based high-fidelity analytical models presented in this chapter are capable of obtaining the elastic properties in a computationally efficient manner for wide range of materials with hexagonal nanostructures. |
| published_date |
2020-06-26T07:55:11Z |
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1821391309195182080 |
| score |
11.364387 |