Epitaxial Growth and Air‐Stability of Monolayer Antimonene on PdTe<sub>2</sub>

Xu, Wenbin; Shao, Yan; Hang, Liu; Feng, Zili; Wang, Yeliang; Sun, Jianing; Liu, Chen; Wang, Jiaou; Liu, Zhong-Liu; Zhu, Shiyu; Wang, Yuqi; Du, Shixuan; Shi, Youguo; Ibrahim, Kurash; Gao, Hongjun

doi:10.1002/adma.201605407

Cited by 329 publications

(213 citation statements)

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“…Therefore, no chemical covalent bonds exist between the layers and other mechanisms like Van-der Waals's interactions or orbitals hybridization may connect the layers. The lack of localization and the absence of covalent bonds between the layers are also reported in the previous heterostructures like G/Sb, PdTe 2 /Sb [28,44] as well as Antimonene grown on (111) Ag substrate [45].…”

Section: Structural Properties Of Antimonene/bismuthene Heterostructuresupporting

confidence: 75%

Antimonene/bismuthene vertical Van-der Waals heterostructure: A computational study

Mozvashi

Vishkayi

Tagani

2020

Physica E: Low-dimensional Systems and Nanostructures

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In this paper, the structural, electronic, mechanical and optical properties of Antimonene/Bismuthene Van-der Waals heterostructure (Sb/Bi HS) were calculated based on the first principle density functional theory. We explored different stacks of Sb/Bi HS to find the most, and the least stable staking for this heterostructure. At the GGA level of theory, the most stable model is a semiconductor with an indirect bandgap of 159 meV. However, when the spin-orbit (SO) interaction is considered, the VBM and CBM touch the Fermi level and the HS becomes a semimetal. Our results also show that the electronic properties of the HS are robust against the external electric field and biaxial strain. Young's modulus was calculated of 64.3 N/m which predicts this HS as a resistant material against being stretched or compressed. The calculated optical properties, similar to monolayer Antimonene, are completely dependent on the polarization of incident light and differ when parallel or perpendicular polarization is considered. Moreover, the absorption coefficient of Sb/Bi HS for perpendicular polarization in the visible region is significantly increased in comparison with the monolayer Antimonene. High structural stability, electronic and mechanical robustness against electric field and strain, along with polarization-dependent optical properties of this HS, promise for its applications in beam splitters and nano-scale mirrors.

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Section: Structural Properties Of Antimonene/bismuthene Heterostructuresupporting

confidence: 75%

Antimonene/bismuthene vertical Van-der Waals heterostructure: A computational study

Mozvashi

Vishkayi

Tagani

2020

Physica E: Low-dimensional Systems and Nanostructures

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“…Antimony is one of these elements and can form layered structures called antimonene. Recently, few-layer antimonene was realized experimentally by different methods such as epitaxial growth [9][10][11] or exfoliation. [12][13][14][15] Additionally, the electronic and vibrational properties of monolayer antimonene have been investigated theoretically, with a predicted band gap of about 2.4 eV.…”

Section: Introductionmentioning

confidence: 99%

Two-Dimensional Antimony Oxide

et al. 2020

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“…[24] Recently,v an der Waals and molecular beam epitaxy (MBE) have been applied for the synthesis of antimonene on different surfaces,t hereby exhibiting good stabilities and high electrical conductivities of up to 10 4 Sm À1 in about 30 nm thick flakes. [25,26] Despite synthetic efforts,t he chemistry and therefore the molecular doping of antimonene remains completely unexplored. In relation to that, we have recently reported on the noncovalent functionalization of BP with electron-poor and polarizable polycyclic aromatic molecules, thus observing ar emarkable charge-transfer behavior, and improving the resistance of the flakes against oxygen degradation.…”

Section: Two-dimensional (2d) Materials Have Attracted Enormousmentioning

confidence: 99%

“…[25,26] Despite synthetic efforts,t he chemistry and therefore the molecular doping of antimonene remains completely unexplored. In relation to that, we have recently reported on the noncovalent functionalization of BP with electron-poor and polarizable polycyclic aromatic molecules, thus observing ar emarkable charge-transfer behavior, and improving the resistance of the flakes against oxygen degradation.…”

mentioning

confidence: 99%

Noncovalent Functionalization and Charge Transfer in Antimonene

et al. 2017

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Antimonene,anovel group 15 two-dimensional material, is functionalizedwith atailormade perylene bisimide through strong van der Waals interactions.T he functionalization process leads to as ignificant quenching of the perylene fluorescence,a nd surpasses that observed for either graphene or black phosphorus,thus allowing straightforwardc haracterization of the flakes by scanning Raman microscopy. Furthermore,s canning photoelectron microscopys tudies and theoretical calculations reveal ar emarkable charge-transfer behavior,being twice that of black phosphorus.Moreover,the excellent stability under environmental conditions of pristine antimonene has been tackled,t hus pointing towards the spontaneous formation of asub-nanometric oxide passivation layer.D FT calculations revealed that the noncovalent functionalization of antimonene results in ac harge-transfer band gap of 1.1 eV.Two-dimensional (2D) materials have attracted enormous attention during the last few years because of their outstanding properties and applications. [1][2][3] Beyond gapless graphene,o ther elemental 2D materials have been successfully synthesized, with black phosphorus (BP) being the only semiconducting material reported so far. [4][5][6][7] This result together with its excellent charge-carrier mobility and current on/off ratios renders BP ap erfect candidate for nanoelectronics and nanophotonics.H owever,i ts (in)stability represents am ajor drawback for the development of the real applications. [8][9][10][11] In contrast, its relative in the periodic table, antimonene,that is,asingle layer of antimony,exhibits aband gap of about 1.8-2.4 eV and an outstanding stability under ambient conditions.A ntimonene has been recently isolated for the very first time both by mechanical exfoliation [12] and liquid-phase exfoliation [13] as reported by our groups.A number of theoretical calculations predict extraordinary physical properties like high carrier mobility, [14] thermal conductivity, [15] and strain-induced band transition, [16] among others.Therefore,a ntimonene appears to be ap romising platform for high-performance sensors, [17] double-gate MOSFETs, [18] spintronics, [19,20] optoelectronic applications, [21,22] energy storage and conversion, [23] and biomedicine.[24]Recently,v an der Waals and molecular beam epitaxy (MBE) have been applied for the synthesis of antimonene on different surfaces,t hereby exhibiting good stabilities and high electrical conductivities of up to 10 4 Sm À1 in about 30 nm thick flakes. [25,26] Despite synthetic efforts,t he chemistry and therefore the molecular doping of antimonene remains completely unexplored. In relation to that, we have recently reported on the noncovalent functionalization of BP with electron-poor and polarizable polycyclic aromatic molecules, thus observing ar emarkable charge-transfer behavior, and improving the resistance of the flakes against oxygen degradation.[ 27,28] In this context, the present work nicely illustrates,for the first time,the noncovalent functionalization o...

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Epitaxial Growth and Air‐Stability of Monolayer Antimonene on PdTe₂

Cited by 329 publications

References 29 publications

Antimonene/bismuthene vertical Van-der Waals heterostructure: A computational study

Antimonene/bismuthene vertical Van-der Waals heterostructure: A computational study

Two-Dimensional Antimony Oxide

Noncovalent Functionalization and Charge Transfer in Antimonene

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Epitaxial Growth and Air‐Stability of Monolayer Antimonene on PdTe2

Cited by 329 publications

References 29 publications

Antimonene/bismuthene vertical Van-der Waals heterostructure: A computational study

Antimonene/bismuthene vertical Van-der Waals heterostructure: A computational study

Two-Dimensional Antimony Oxide

Noncovalent Functionalization and Charge Transfer in Antimonene

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Epitaxial Growth and Air‐Stability of Monolayer Antimonene on PdTe₂