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Effective elastic properties of two dimensional multiplanar hexagonal nanostructures

Effective elastic properties of two dimensional multiplanar hexagonal nanostructures
Effective elastic properties of two dimensional multiplanar hexagonal nanostructures

A generalized analytical approach is presented to derive closed-form formulae for the elastic moduli of hexagonal multiplanar nano-structures. Hexagonal nano-structural forms are common for various materials. Four different classes of materials (single layer) from a structural point of view are proposed to demonstrate the validity and prospective application of the developed formulae. For example, graphene, an allotrope of carbon, consists of only carbon atoms to form a honeycomb like hexagonal lattice in a single plane, while hexagonal boron nitride (hBN) consists of boron and nitrogen atoms to form the hexagonal lattice in a single plane. Unlike graphene and hBN, there are plenty of other materials with hexagonal nano-structures that have the atoms placed in multiple planes such as stanene (consists of only Sn atoms) and molybdenum disulfide (consists of two different atoms: Mo and S). The physics based high-fidelity analytical model developed in this article are capable of obtaining the elastic properties in a computationally efficient manner for wide range of such materials with hexagonal nano-structures that are broadly classified in four classes from structural viewpoint. Results are provided for materials belonging to all the four classes, wherein a good agreement between the elastic moduli obtained using the proposed formulae and available scientific literature is observed.

Analytical closed-form formulae, Effective elastic modulus, Graphene, HBN, Hexagonal nano-structures, MoS, Stanene
2053-1583
Mukhopadhyay, T.
2ae18ab0-7477-40ac-ae22-76face7be475
Mahata, A.
1af2dde8-0a7a-453c-824f-aac24d25af50
Adhikari, S.
82960baf-916c-496e-aa85-fc7de09a1626
Asle Zaeem, M.
6133a728-343f-4d54-94c9-84e9f7d79c45
Mukhopadhyay, T.
2ae18ab0-7477-40ac-ae22-76face7be475
Mahata, A.
1af2dde8-0a7a-453c-824f-aac24d25af50
Adhikari, S.
82960baf-916c-496e-aa85-fc7de09a1626
Asle Zaeem, M.
6133a728-343f-4d54-94c9-84e9f7d79c45

Mukhopadhyay, T., Mahata, A., Adhikari, S. and Asle Zaeem, M. (2017) Effective elastic properties of two dimensional multiplanar hexagonal nanostructures. 2D Materials, 4 (2), [025006]. (doi:10.1088/2053-1583/aa551c).

Record type: Article

Abstract

A generalized analytical approach is presented to derive closed-form formulae for the elastic moduli of hexagonal multiplanar nano-structures. Hexagonal nano-structural forms are common for various materials. Four different classes of materials (single layer) from a structural point of view are proposed to demonstrate the validity and prospective application of the developed formulae. For example, graphene, an allotrope of carbon, consists of only carbon atoms to form a honeycomb like hexagonal lattice in a single plane, while hexagonal boron nitride (hBN) consists of boron and nitrogen atoms to form the hexagonal lattice in a single plane. Unlike graphene and hBN, there are plenty of other materials with hexagonal nano-structures that have the atoms placed in multiple planes such as stanene (consists of only Sn atoms) and molybdenum disulfide (consists of two different atoms: Mo and S). The physics based high-fidelity analytical model developed in this article are capable of obtaining the elastic properties in a computationally efficient manner for wide range of such materials with hexagonal nano-structures that are broadly classified in four classes from structural viewpoint. Results are provided for materials belonging to all the four classes, wherein a good agreement between the elastic moduli obtained using the proposed formulae and available scientific literature is observed.

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More information

Published date: 25 January 2017
Additional Information: Publisher Copyright: © 2017 IOP Publishing Ltd.
Keywords: Analytical closed-form formulae, Effective elastic modulus, Graphene, HBN, Hexagonal nano-structures, MoS, Stanene

Identifiers

Local EPrints ID: 483543
URI: http://eprints.soton.ac.uk/id/eprint/483543
DOI: doi:10.1088/2053-1583/aa551c
ISSN: 2053-1583
PURE UUID: bac0a90f-2565-4b1a-9e1f-2d5a2af9da22
ORCID for T. Mukhopadhyay: ORCID iD orcid.org/0000-0002-0778-6515

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Date deposited: 01 Nov 2023 17:59
Last modified: 18 Mar 2024 04:10

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Contributors

Author: T. Mukhopadhyay ORCID iD
Author: A. Mahata
Author: S. Adhikari
Author: M. Asle Zaeem

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