Atomic and electronic structure transformations in SnS at high pressures: a joint single crystal X-ray diffraction and DFT study
The layered semiconductor SnS 2 spurs much interest for both intercalation and optoelectronic applications. Despite the wealth of research in the field of metal dichalcogenides, the structure-property relationship of this compound remains unclear. Here we present a thorough study combining single-cr...
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| Veröffentlicht in: | Dalton transactions : an international journal of inorganic chemistry 2016-02, Vol.45 (9), p.3798-385 |
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| creator | Filsø, M. Ø Eikeland, E Zhang, J Madsen, S. R Iversen, B. B |
| description | The layered semiconductor SnS
2
spurs much interest for both intercalation and optoelectronic applications. Despite the wealth of research in the field of metal dichalcogenides, the structure-property relationship of this compound remains unclear. Here we present a thorough study combining single-crystal X-ray diffraction and DFT calculations on SnS
2
in the pressure range 0 <
p
< 20 GPa. The anisotropic compression of the unit cell is clearly linked to the van der Waals interactions between the S-Sn-S sandwich layers, as the compression mainly affects the interlayer distance. This compression behavior is coincidal with the compression of other well-known layered compounds (graphite and boron nitride) but differs significantly from the compression of other MS
2
compounds, making it clear that SnS
2
presents a unique and interesting case in the field of metal dichalcogenides. The compression leads to a significant increase in S S interlayer interaction which in turn results in a change in the electronic structure, documented through DFT band structure calculations. The calculated narrowing of the band gap is supported by a significant, reversible color change of the single crystal. At 20 GPa, the size of the band gap has decreased from 2.15 to 0.88 eV, and band gap closure is predicted to occur at 33 GPa.
SnS
2
is observed to have a layer compressibility similar to that of graphite, and a reversible color change with pressure is explained from band structure calculations. |
| doi_str_mv | 10.1039/c5dt04532k |
| format | Article |
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2
spurs much interest for both intercalation and optoelectronic applications. Despite the wealth of research in the field of metal dichalcogenides, the structure-property relationship of this compound remains unclear. Here we present a thorough study combining single-crystal X-ray diffraction and DFT calculations on SnS
2
in the pressure range 0 <
p
< 20 GPa. The anisotropic compression of the unit cell is clearly linked to the van der Waals interactions between the S-Sn-S sandwich layers, as the compression mainly affects the interlayer distance. This compression behavior is coincidal with the compression of other well-known layered compounds (graphite and boron nitride) but differs significantly from the compression of other MS
2
compounds, making it clear that SnS
2
presents a unique and interesting case in the field of metal dichalcogenides. The compression leads to a significant increase in S S interlayer interaction which in turn results in a change in the electronic structure, documented through DFT band structure calculations. The calculated narrowing of the band gap is supported by a significant, reversible color change of the single crystal. At 20 GPa, the size of the band gap has decreased from 2.15 to 0.88 eV, and band gap closure is predicted to occur at 33 GPa.
SnS
2
is observed to have a layer compressibility similar to that of graphite, and a reversible color change with pressure is explained from band structure calculations.</description><identifier>ISSN: 1477-9226</identifier><identifier>EISSN: 1477-9234</identifier><identifier>DOI: 10.1039/c5dt04532k</identifier><ispartof>Dalton transactions : an international journal of inorganic chemistry, 2016-02, Vol.45 (9), p.3798-385</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Filsø, M. Ø</creatorcontrib><creatorcontrib>Eikeland, E</creatorcontrib><creatorcontrib>Zhang, J</creatorcontrib><creatorcontrib>Madsen, S. R</creatorcontrib><creatorcontrib>Iversen, B. B</creatorcontrib><title>Atomic and electronic structure transformations in SnS at high pressures: a joint single crystal X-ray diffraction and DFT study</title><title>Dalton transactions : an international journal of inorganic chemistry</title><description>The layered semiconductor SnS
2
spurs much interest for both intercalation and optoelectronic applications. Despite the wealth of research in the field of metal dichalcogenides, the structure-property relationship of this compound remains unclear. Here we present a thorough study combining single-crystal X-ray diffraction and DFT calculations on SnS
2
in the pressure range 0 <
p
< 20 GPa. The anisotropic compression of the unit cell is clearly linked to the van der Waals interactions between the S-Sn-S sandwich layers, as the compression mainly affects the interlayer distance. This compression behavior is coincidal with the compression of other well-known layered compounds (graphite and boron nitride) but differs significantly from the compression of other MS
2
compounds, making it clear that SnS
2
presents a unique and interesting case in the field of metal dichalcogenides. The compression leads to a significant increase in S S interlayer interaction which in turn results in a change in the electronic structure, documented through DFT band structure calculations. The calculated narrowing of the band gap is supported by a significant, reversible color change of the single crystal. At 20 GPa, the size of the band gap has decreased from 2.15 to 0.88 eV, and band gap closure is predicted to occur at 33 GPa.
SnS
2
is observed to have a layer compressibility similar to that of graphite, and a reversible color change with pressure is explained from band structure calculations.</description><issn>1477-9226</issn><issn>1477-9234</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNqFT7tuwkAQPEWJBHk09JH2B5yczzYIOhRA9FCkQ6vzGQ7sO7S7Ltzl0zEIJWWqmdGMZjRKjVL9keps-mmLUnReZOb0oIZpPpkkU5Plj7_cjAfqmfmotTG6MEP1M5fYeAsYSnC1s0Ix9JKFWistORDCwFWkBsXHwOADbMIGUODg9wc4k2PuczwDhGP0QYB92NcOLHUsWMN3QthB6auK0F47bluL1bYfacvuVT1VWLN7u-OLel8tt1_rhNjuzuQbpG73dyv7z78ASJ1S4w</recordid><startdate>20160218</startdate><enddate>20160218</enddate><creator>Filsø, M. Ø</creator><creator>Eikeland, E</creator><creator>Zhang, J</creator><creator>Madsen, S. R</creator><creator>Iversen, B. B</creator><scope/></search><sort><creationdate>20160218</creationdate><title>Atomic and electronic structure transformations in SnS at high pressures: a joint single crystal X-ray diffraction and DFT study</title><author>Filsø, M. Ø ; Eikeland, E ; Zhang, J ; Madsen, S. R ; Iversen, B. B</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-rsc_primary_c5dt04532k3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><creationdate>2016</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Filsø, M. Ø</creatorcontrib><creatorcontrib>Eikeland, E</creatorcontrib><creatorcontrib>Zhang, J</creatorcontrib><creatorcontrib>Madsen, S. R</creatorcontrib><creatorcontrib>Iversen, B. B</creatorcontrib><jtitle>Dalton transactions : an international journal of inorganic chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Filsø, M. Ø</au><au>Eikeland, E</au><au>Zhang, J</au><au>Madsen, S. R</au><au>Iversen, B. B</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Atomic and electronic structure transformations in SnS at high pressures: a joint single crystal X-ray diffraction and DFT study</atitle><jtitle>Dalton transactions : an international journal of inorganic chemistry</jtitle><date>2016-02-18</date><risdate>2016</risdate><volume>45</volume><issue>9</issue><spage>3798</spage><epage>385</epage><pages>3798-385</pages><issn>1477-9226</issn><eissn>1477-9234</eissn><abstract>The layered semiconductor SnS
2
spurs much interest for both intercalation and optoelectronic applications. Despite the wealth of research in the field of metal dichalcogenides, the structure-property relationship of this compound remains unclear. Here we present a thorough study combining single-crystal X-ray diffraction and DFT calculations on SnS
2
in the pressure range 0 <
p
< 20 GPa. The anisotropic compression of the unit cell is clearly linked to the van der Waals interactions between the S-Sn-S sandwich layers, as the compression mainly affects the interlayer distance. This compression behavior is coincidal with the compression of other well-known layered compounds (graphite and boron nitride) but differs significantly from the compression of other MS
2
compounds, making it clear that SnS
2
presents a unique and interesting case in the field of metal dichalcogenides. The compression leads to a significant increase in S S interlayer interaction which in turn results in a change in the electronic structure, documented through DFT band structure calculations. The calculated narrowing of the band gap is supported by a significant, reversible color change of the single crystal. At 20 GPa, the size of the band gap has decreased from 2.15 to 0.88 eV, and band gap closure is predicted to occur at 33 GPa.
SnS
2
is observed to have a layer compressibility similar to that of graphite, and a reversible color change with pressure is explained from band structure calculations.</abstract><doi>10.1039/c5dt04532k</doi><tpages>8</tpages></addata></record> |
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| source | Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection |
| title | Atomic and electronic structure transformations in SnS at high pressures: a joint single crystal X-ray diffraction and DFT study |
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