Large Negative Poisson’s Ratio and Anisotropic Mechanics in New Penta-PBN Monolayer

Sharma, Shambhu Bhandari; Qattan, I. A.; Kc, Santosh; Alsaad, Ahmad

doi:10.1021/acsomega.2c03567

Cited by 11 publications

(15 citation statements)

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“…Some others 2D materials, such as SiSe monolayer [16], 1 T-phase transition metal dichalcogenides [17,18], Be 5 C 2 [19], penta-graphene [20], borophene [21] and 2D silicon dioxide, have been theoretically proposed to display a negative in-plane Poisson's ratio (NPR). These materials, known as auxetic materials [22], have had their NPR characteristics predicted with significant influence from Gibson's theory [23]. In addition, auxetic materials expand when stretched [24] and they have superior mechanical properties to other materials, including outstanding resistance to indentation and fracture, and improved shear strength.…”

Section: Introductionmentioning

confidence: 99%

Bi-based bracelet-like monolayer with negative in-plane Poisson’s ratio and enhanced photocatalytic performance: a first-principles study

Kedidi,

Ayadi,

Debbichi

2024

J. Phys.: Condens. Matter

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Auxetic materials are in high demand for advanced applications due to their relatively rare negative Poisson’s ratio in two-dimensional materials. This study investigates the structural, mechanical, electronic, optical and photocatalytic properties of the AsBiTe3 monolayer using ﬁrst-principles calculations. Through analysis of phonon dispersion curves, ab-initio molecular dynamics simulations, and Born conditions, we have conﬁrmed the thermal, dynamic, and mechanical stability of the AsBiTe3 monolayer. The study of the mechanical properties of this material revealed signiﬁcant anisotropy and a bidirectional in-plane negative Poisson’s ratio (NPR). In addition, electronic band structures calculated, with and without spin-orbit coupling (SOC) using the HSE functional, indicate that this monolayer exhibits the characteristics of an indirect-gap semiconductor around 1.17 and 1.32 eV, respectively. Notably, by assessing the optical properties of AsBiTe3 monolayer, it has been found that this monolayer has a strong light-harvesting capability with an absorption coeﬃcient higher than 10-5 cm-1 in the visible region. Fascinatingly, under a biaxial 1% and 4% tensile and -2% compressive strain, the band edge of the AsBiTe3 monolayer extends across the redox potential of water at pH = 0, 7 and 14, respectively. This suggests that this monolayer holds promise as a potential material for catalytic water splitting. These results should inspire further experimental and theoretical research, aimed at fully exploring the potential applications of this new class of 2D materials.

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Section: Introductionmentioning

confidence: 99%

Bi-based bracelet-like monolayer with negative in-plane Poisson’s ratio and enhanced photocatalytic performance: a first-principles study

Kedidi,

Ayadi,

Debbichi

2024

J. Phys.: Condens. Matter

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“…Meanwhile, the newly discovered penta-Graphene [2,3], with semiconducting behavior, mechanical strength equivalent to that of Graphene, and very rare auxetic mechanics, has shed light into the importance of the new 2D Cairo-pentagonal lattice-based sheets (elementary, binary compounds) as promising future materials, which demonstrated exceptional physical and chemical properties. These properties have been identified mostly with theoretical and computational approaches [4,5,6,7,8], with promising possibility for experimental synthesis and experimental feasibility [9,10,11,12,13]. They exhibit buckling/puckering nature combined with three virtual layers geometry, which enable them to parade phenomenal optoelectronic, mechanical, and thermal conductivity properties.…”

Section: Introductionmentioning

confidence: 99%

New 2D penta-SiPN: A wide and indirect bandgap semiconductor

Qattan,

Sharma,

Santosh

et al. 2024

J. Phys.: Conf. Ser.

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In recent years, two-dimensional (2D) pentagonal ternary monolayers have attracted much attention and emerged as a new class of materials because of their new feature and extensive applicability. Using first-principles density functional theory (DFT) calculations, we predict a new 2D pentagonal-SiPN or p-SiPN monolayer material. The new monolayer has shown to be structurally, thermodynamically, and dynamically stable. Our findings imply that p-SiPN is a wide and indirect bandgap semiconductor, with a highly tunable bandgap with applied equ-biaxial strain. This makes p-SiPN a promising candidate for futuristic optoelectronics and nanomechanics device applications.

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“…[7][8][9] Examples mainly include a-phosphorene, 10 d-phosphorene, 11 GaPS 4 , 12 a-CaSe, 13 Ag 2 S, 14 BI, 15 and Penta-PBN. 16 While ferroic materials (ferroelastic, ferroelectric, or ferromagnetic) are well-known for their applications in nonvolatile memory, there is limited research on 2D ferroelastic or ferroelectric materials. Some reported examples include a-MPI (M = Zr, Hf), 17 borophane, 18 PdSe 2 , 19 and InBi 20 as 2D ferroelastic materials.…”

Section: Introductionmentioning

confidence: 99%

Auxetic and multiferroic MP₅ (M = Al, Ga): a novel 2D material with negative Possion's ratio and high anisotropic carrier mobility

Lan,

Chen

2023

Phys. Chem. Chem. Phys.

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Large Negative Poisson’s Ratio and Anisotropic Mechanics in New Penta-PBN Monolayer

Cited by 11 publications

References 61 publications

Bi-based bracelet-like monolayer with negative in-plane Poisson’s ratio and enhanced photocatalytic performance: a first-principles study

Bi-based bracelet-like monolayer with negative in-plane Poisson’s ratio and enhanced photocatalytic performance: a first-principles study

New 2D penta-SiPN: A wide and indirect bandgap semiconductor

Auxetic and multiferroic MP₅ (M = Al, Ga): a novel 2D material with negative Possion's ratio and high anisotropic carrier mobility

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Large Negative Poisson’s Ratio and Anisotropic Mechanics in New Penta-PBN Monolayer

Cited by 11 publications

References 61 publications

Bi-based bracelet-like monolayer with negative in-plane Poisson’s ratio and enhanced photocatalytic performance: a first-principles study

Bi-based bracelet-like monolayer with negative in-plane Poisson’s ratio and enhanced photocatalytic performance: a first-principles study

New 2D penta-SiPN: A wide and indirect bandgap semiconductor

Auxetic and multiferroic MP5 (M = Al, Ga): a novel 2D material with negative Possion's ratio and high anisotropic carrier mobility

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Auxetic and multiferroic MP₅ (M = Al, Ga): a novel 2D material with negative Possion's ratio and high anisotropic carrier mobility