Ab Initio Calculations on the Electronic Structure and Photocatalytic Properties of Two‐Dimensional WS2 (0001) Nanolayers of Varying Thickness

2D layered transition metal dichalcogenides (TMDC) structurized in hexagonal 2H c phase possess space group P63/mmc and graphite‐type morphology (e.g., WS2 bulk), as well as strong chemical bonds and weak coupling between S‐W‐S three‐plane monolayers (MLs). Ab initio calculations on pristine WS2 (00...

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Veröffentlicht in:	Physica status solidi. PSS-RRL. Rapid research letters 2019-01, Vol.13 (1), p.n/a
Hauptverfasser:	Bocharov, Dmitry, Piskunov, Sergei, Zhukovskii, Yuri F., Evarestov, Robert A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Bonding strength Chemical bonds Conduction bands Crystal defects CRYSTAL14 code Density functional theory Electronic structure electronic structure calculations Energy gap Graphene graphene‐like WS2 nanolayers hybrid HSE06 Hamiltonian Mathematical analysis Morphology Organic chemistry Oxidation Photocatalysis Point defects Thickness Transition metal compounds Tungsten disulfide Valence band Visible spectrum
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description	2D layered transition metal dichalcogenides (TMDC) structurized in hexagonal 2H c phase possess space group P63/mmc and graphite‐type morphology (e.g., WS2 bulk), as well as strong chemical bonds and weak coupling between S‐W‐S three‐plane monolayers (MLs). Ab initio calculations on pristine WS2 (0001) nanolayers are performed using CRYSTAL14 code within the formalism of hybrid density functional theory and Hartree–Fock method (HSE06 Hamiltonian properly adapted to describe tungsten disulphide bulk). An ordered stack of graphene‐type WS2 (0001)‐oriented MLs (in absence of any point defects including dopants) with thikness varies from 1 to 40 MLs is found to be suitable for photocatalysis since irrespectively of this thickness the bandgap corresponds to the varied range of visible spectrum between its violet and red edges, respectively. The authors calculate the electronic structure of these nanolayers. The highest photocatalytic efficiency is achieved for WS2 2 ML with band gap △ϵgap ≈ 2.06 eV (yellow range of the visible spectrum). Additionally, all the edges of ordered pristine 2H c WS2 (0001) nanosheets (ϵVB and ϵCB levels corresponding to the top of the valence band and the bottom of the conduction band) are properly aligned relative to the oxidation and reduction potentials (ϵO2/H2O and ϵH+/H2): ϵVB
doi_str_mv	10.1002/pssr.201800253
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Ab initio calculations on pristine WS2 (0001) nanolayers are performed using CRYSTAL14 code within the formalism of hybrid density functional theory and Hartree–Fock method (HSE06 Hamiltonian properly adapted to describe tungsten disulphide bulk). An ordered stack of graphene‐type WS2 (0001)‐oriented MLs (in absence of any point defects including dopants) with thikness varies from 1 to 40 MLs is found to be suitable for photocatalysis since irrespectively of this thickness the bandgap corresponds to the varied range of visible spectrum between its violet and red edges, respectively. The authors calculate the electronic structure of these nanolayers. The highest photocatalytic efficiency is achieved for WS2 2 ML with band gap △ϵgap ≈ 2.06 eV (yellow range of the visible spectrum). Additionally, all the edges of ordered pristine 2H c WS2 (0001) nanosheets (ϵVB and ϵCB levels corresponding to the top of the valence band and the bottom of the conduction band) are properly aligned relative to the oxidation and reduction potentials (ϵO2/H2O and ϵH+/H2): ϵVB < ϵO2/H2O < ϵH+/H2 < ϵCB, which means that probability of photocatalytic electron‐hole recombination is rather minimal, being reduced with a decrease of stack thickness. An ordered stack of graphene‐type WS2 (0001)‐oriented monolayers (in absence of any point defects including dopants) with thickness varies from 1 to 40 monolayers is found to be suitable for photocatalysis since irrespectively of this thickness the bandgap corresponds to the varied range of visible spectrum between its violet and red edges, respectively.</description><identifier>ISSN: 1862-6254</identifier><identifier>EISSN: 1862-6270</identifier><identifier>DOI: 10.1002/pssr.201800253</identifier><language>eng</language><publisher>Berlin: WILEY‐VCH Verlag Berlin GmbH</publisher><subject>Bonding strength ; Chemical bonds ; Conduction bands ; Crystal defects ; CRYSTAL14 code ; Density functional theory ; Electronic structure ; electronic structure calculations ; Energy gap ; Graphene ; graphene‐like WS2 nanolayers ; hybrid HSE06 Hamiltonian ; Mathematical analysis ; Morphology ; Organic chemistry ; Oxidation ; Photocatalysis ; Point defects ; Thickness ; Transition metal compounds ; Tungsten disulfide ; Valence band ; Visible spectrum</subject><ispartof>Physica status solidi. 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PSS-RRL. Rapid research letters</title><description>2D layered transition metal dichalcogenides (TMDC) structurized in hexagonal 2H c phase possess space group P63/mmc and graphite‐type morphology (e.g., WS2 bulk), as well as strong chemical bonds and weak coupling between S‐W‐S three‐plane monolayers (MLs). Ab initio calculations on pristine WS2 (0001) nanolayers are performed using CRYSTAL14 code within the formalism of hybrid density functional theory and Hartree–Fock method (HSE06 Hamiltonian properly adapted to describe tungsten disulphide bulk). An ordered stack of graphene‐type WS2 (0001)‐oriented MLs (in absence of any point defects including dopants) with thikness varies from 1 to 40 MLs is found to be suitable for photocatalysis since irrespectively of this thickness the bandgap corresponds to the varied range of visible spectrum between its violet and red edges, respectively. The authors calculate the electronic structure of these nanolayers. The highest photocatalytic efficiency is achieved for WS2 2 ML with band gap △ϵgap ≈ 2.06 eV (yellow range of the visible spectrum). Additionally, all the edges of ordered pristine 2H c WS2 (0001) nanosheets (ϵVB and ϵCB levels corresponding to the top of the valence band and the bottom of the conduction band) are properly aligned relative to the oxidation and reduction potentials (ϵO2/H2O and ϵH+/H2): ϵVB < ϵO2/H2O < ϵH+/H2 < ϵCB, which means that probability of photocatalytic electron‐hole recombination is rather minimal, being reduced with a decrease of stack thickness. An ordered stack of graphene‐type WS2 (0001)‐oriented monolayers (in absence of any point defects including dopants) with thickness varies from 1 to 40 monolayers is found to be suitable for photocatalysis since irrespectively of this thickness the bandgap corresponds to the varied range of visible spectrum between its violet and red edges, respectively.</description><subject>Bonding strength</subject><subject>Chemical bonds</subject><subject>Conduction bands</subject><subject>Crystal defects</subject><subject>CRYSTAL14 code</subject><subject>Density functional theory</subject><subject>Electronic structure</subject><subject>electronic structure calculations</subject><subject>Energy gap</subject><subject>Graphene</subject><subject>graphene‐like WS2 nanolayers</subject><subject>hybrid HSE06 Hamiltonian</subject><subject>Mathematical analysis</subject><subject>Morphology</subject><subject>Organic chemistry</subject><subject>Oxidation</subject><subject>Photocatalysis</subject><subject>Point defects</subject><subject>Thickness</subject><subject>Transition metal compounds</subject><subject>Tungsten disulfide</subject><subject>Valence band</subject><subject>Visible spectrum</subject><issn>1862-6254</issn><issn>1862-6270</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNo9UMFOAjEU3BhNRPTquYkXPSy2u23ZHgmikhAlgnrcdLtdKS7t2nZDuPkJfKNfYhHD6c28N28ymSi6RLCHIExuG-dsL4EoC4SkR1EHZTSJadKHxwdM8Gl05twSQsL6OO1E20EBxlp5ZcCQ16KteYDaAaOBX0gwqqXw1mglwMzbVvjWSsB1CaYL443gntcbH45TaxppvZLhswLztfn53t6pldQuuPEavM8ScA0hRDfgiWtT8420f9I3bjdKf4D5QolPLZ07j04qXjt58T-70ev9aD58jCfPD-PhYBI3CUzTWGBUlLjPC8Q5YqIkWYoxljTsGaSiEESIUpaCUJ4xkkKGMctIVVEp-4gymXajq71vY81XK53Pl6a1IavLE0QpJDBhLKjYXrVWtdzkjVWrEDhHMN9Vnu8qzw-V59PZ7OXA0l9xuHpF</recordid><startdate>201901</startdate><enddate>201901</enddate><creator>Bocharov, Dmitry</creator><creator>Piskunov, Sergei</creator><creator>Zhukovskii, Yuri F.</creator><creator>Evarestov, Robert A.</creator><general>WILEY‐VCH Verlag Berlin GmbH</general><general>Wiley Subscription Services, Inc</general><scope>7U5</scope><scope>8FD</scope><scope>L7M</scope><orcidid>https://orcid.org/0000-0002-1339-2395</orcidid></search><sort><creationdate>201901</creationdate><title>Ab Initio Calculations on the Electronic Structure and Photocatalytic Properties of Two‐Dimensional WS2 (0001) Nanolayers of Varying Thickness</title><author>Bocharov, Dmitry ; Piskunov, Sergei ; Zhukovskii, Yuri F. ; Evarestov, Robert A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p2033-c41bd47ab1aa19cd583444e6c41906cbc5ccdedc56a89530944985ff6ee7169e3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2019</creationdate><topic>Bonding strength</topic><topic>Chemical bonds</topic><topic>Conduction bands</topic><topic>Crystal defects</topic><topic>CRYSTAL14 code</topic><topic>Density functional theory</topic><topic>Electronic structure</topic><topic>electronic structure calculations</topic><topic>Energy gap</topic><topic>Graphene</topic><topic>graphene‐like WS2 nanolayers</topic><topic>hybrid HSE06 Hamiltonian</topic><topic>Mathematical analysis</topic><topic>Morphology</topic><topic>Organic chemistry</topic><topic>Oxidation</topic><topic>Photocatalysis</topic><topic>Point defects</topic><topic>Thickness</topic><topic>Transition metal compounds</topic><topic>Tungsten disulfide</topic><topic>Valence band</topic><topic>Visible spectrum</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Bocharov, Dmitry</creatorcontrib><creatorcontrib>Piskunov, Sergei</creatorcontrib><creatorcontrib>Zhukovskii, Yuri F.</creatorcontrib><creatorcontrib>Evarestov, Robert A.</creatorcontrib><collection>Solid State and Superconductivity Abstracts</collection><collection>Technology Research Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Physica status solidi. PSS-RRL. Rapid research letters</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Bocharov, Dmitry</au><au>Piskunov, Sergei</au><au>Zhukovskii, Yuri F.</au><au>Evarestov, Robert A.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Ab Initio Calculations on the Electronic Structure and Photocatalytic Properties of Two‐Dimensional WS2 (0001) Nanolayers of Varying Thickness</atitle><jtitle>Physica status solidi. PSS-RRL. Rapid research letters</jtitle><date>2019-01</date><risdate>2019</risdate><volume>13</volume><issue>1</issue><epage>n/a</epage><issn>1862-6254</issn><eissn>1862-6270</eissn><abstract>2D layered transition metal dichalcogenides (TMDC) structurized in hexagonal 2H c phase possess space group P63/mmc and graphite‐type morphology (e.g., WS2 bulk), as well as strong chemical bonds and weak coupling between S‐W‐S three‐plane monolayers (MLs). Ab initio calculations on pristine WS2 (0001) nanolayers are performed using CRYSTAL14 code within the formalism of hybrid density functional theory and Hartree–Fock method (HSE06 Hamiltonian properly adapted to describe tungsten disulphide bulk). An ordered stack of graphene‐type WS2 (0001)‐oriented MLs (in absence of any point defects including dopants) with thikness varies from 1 to 40 MLs is found to be suitable for photocatalysis since irrespectively of this thickness the bandgap corresponds to the varied range of visible spectrum between its violet and red edges, respectively. The authors calculate the electronic structure of these nanolayers. The highest photocatalytic efficiency is achieved for WS2 2 ML with band gap △ϵgap ≈ 2.06 eV (yellow range of the visible spectrum). Additionally, all the edges of ordered pristine 2H c WS2 (0001) nanosheets (ϵVB and ϵCB levels corresponding to the top of the valence band and the bottom of the conduction band) are properly aligned relative to the oxidation and reduction potentials (ϵO2/H2O and ϵH+/H2): ϵVB < ϵO2/H2O < ϵH+/H2 < ϵCB, which means that probability of photocatalytic electron‐hole recombination is rather minimal, being reduced with a decrease of stack thickness. 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subjects	Bonding strength Chemical bonds Conduction bands Crystal defects CRYSTAL14 code Density functional theory Electronic structure electronic structure calculations Energy gap Graphene graphene‐like WS2 nanolayers hybrid HSE06 Hamiltonian Mathematical analysis Morphology Organic chemistry Oxidation Photocatalysis Point defects Thickness Transition metal compounds Tungsten disulfide Valence band Visible spectrum
title	Ab Initio Calculations on the Electronic Structure and Photocatalytic Properties of Two‐Dimensional WS2 (0001) Nanolayers of Varying Thickness
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