Chemical vapour deposition of antimony chalcogenides with positional and orientational control: precursor design and substrate selectivity

A series of alkylchalcogenostibines, Me 2 SbSe n Bu, MeSb(Se n Bu) 2 , Sb(Se n Bu) 3 and MeSb(Te n Bu) 2 , have been designed and synthesised as potential precursors for chemical vapour deposition (CVD) by reaction of n BuELi (E = Se, Te) with the appropriate halostibine, Me 3−n SbCl n ( n = 1, 2, 3...

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Veröffentlicht in:	Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2015-01, Vol.3 (2), p.423-430
Hauptverfasser:	Benjamin, S. L., de Groot, C. H., Hector, A. L., Huang, R., Koukharenko, E., Levason, W., Reid, G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Atomic structure Chemical vapor deposition Crystal structure Deposition Electronic devices Materials selection Precursors Thin films
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container_title	Journal of materials chemistry. C, Materials for optical and electronic devices
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creator	Benjamin, S. L. de Groot, C. H. Hector, A. L. Huang, R. Koukharenko, E. Levason, W. Reid, G.
description	A series of alkylchalcogenostibines, Me 2 SbSe n Bu, MeSb(Se n Bu) 2 , Sb(Se n Bu) 3 and MeSb(Te n Bu) 2 , have been designed and synthesised as potential precursors for chemical vapour deposition (CVD) by reaction of n BuELi (E = Se, Te) with the appropriate halostibine, Me 3−n SbCl n ( n = 1, 2, 3), and characterised by 1 H, 13 C{ 1 H} and 77 Se{ 1 H} or 125 Te{ 1 H} NMR spectroscopy as appropriate. MeSb(Se n Bu) 2 and MeSb(Te n Bu) 2 are very effective single source precursors for the low pressure CVD of high quality crystalline thin films of Sb 2 Se 3 and Sb 2 Te 3 , respectively, confirmed by scanning electron microscopy, energy dispersive X-ray spectroscopy, Raman spectroscopy and thin film X-ray diffraction. Hall conductivity, carrier mobility, carrier density and, in the case of Sb 2 Te 3 , Seebeck coefficient measurements reveal electronic characteristics comparable with Sb 2 E 3 deposited by atomic layer deposition or molecular beam epitaxy, suggesting materials quality and performance suitable for incorporation into electronic device structures. Choice of substrate and deposition conditions were found to significantly affect the morphology and preferred orientation of Sb 2 Te 3 crystallites, enabling deposition of films with either 〈1 1 0〉 or 〈0 0 1〉 alignment. Use of micro-patterned substrates allowed selective deposition of crystalline 2D micro-arrays of Sb 2 Te 3 onto exposed TiN surfaces only.
doi_str_mv	10.1039/C4TC02327G
format	Article
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L. ; de Groot, C. H. ; Hector, A. L. ; Huang, R. ; Koukharenko, E. ; Levason, W. ; Reid, G.</creator><creatorcontrib>Benjamin, S. L. ; de Groot, C. H. ; Hector, A. L. ; Huang, R. ; Koukharenko, E. ; Levason, W. ; Reid, G.</creatorcontrib><description>A series of alkylchalcogenostibines, Me 2 SbSe n Bu, MeSb(Se n Bu) 2 , Sb(Se n Bu) 3 and MeSb(Te n Bu) 2 , have been designed and synthesised as potential precursors for chemical vapour deposition (CVD) by reaction of n BuELi (E = Se, Te) with the appropriate halostibine, Me 3−n SbCl n ( n = 1, 2, 3), and characterised by 1 H, 13 C{ 1 H} and 77 Se{ 1 H} or 125 Te{ 1 H} NMR spectroscopy as appropriate. MeSb(Se n Bu) 2 and MeSb(Te n Bu) 2 are very effective single source precursors for the low pressure CVD of high quality crystalline thin films of Sb 2 Se 3 and Sb 2 Te 3 , respectively, confirmed by scanning electron microscopy, energy dispersive X-ray spectroscopy, Raman spectroscopy and thin film X-ray diffraction. Hall conductivity, carrier mobility, carrier density and, in the case of Sb 2 Te 3 , Seebeck coefficient measurements reveal electronic characteristics comparable with Sb 2 E 3 deposited by atomic layer deposition or molecular beam epitaxy, suggesting materials quality and performance suitable for incorporation into electronic device structures. Choice of substrate and deposition conditions were found to significantly affect the morphology and preferred orientation of Sb 2 Te 3 crystallites, enabling deposition of films with either 〈1 1 0〉 or 〈0 0 1〉 alignment. 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C, Materials for optical and electronic devices</jtitle><date>2015-01-01</date><risdate>2015</risdate><volume>3</volume><issue>2</issue><spage>423</spage><epage>430</epage><pages>423-430</pages><issn>2050-7526</issn><eissn>2050-7534</eissn><abstract>A series of alkylchalcogenostibines, Me 2 SbSe n Bu, MeSb(Se n Bu) 2 , Sb(Se n Bu) 3 and MeSb(Te n Bu) 2 , have been designed and synthesised as potential precursors for chemical vapour deposition (CVD) by reaction of n BuELi (E = Se, Te) with the appropriate halostibine, Me 3−n SbCl n ( n = 1, 2, 3), and characterised by 1 H, 13 C{ 1 H} and 77 Se{ 1 H} or 125 Te{ 1 H} NMR spectroscopy as appropriate. MeSb(Se n Bu) 2 and MeSb(Te n Bu) 2 are very effective single source precursors for the low pressure CVD of high quality crystalline thin films of Sb 2 Se 3 and Sb 2 Te 3 , respectively, confirmed by scanning electron microscopy, energy dispersive X-ray spectroscopy, Raman spectroscopy and thin film X-ray diffraction. Hall conductivity, carrier mobility, carrier density and, in the case of Sb 2 Te 3 , Seebeck coefficient measurements reveal electronic characteristics comparable with Sb 2 E 3 deposited by atomic layer deposition or molecular beam epitaxy, suggesting materials quality and performance suitable for incorporation into electronic device structures. Choice of substrate and deposition conditions were found to significantly affect the morphology and preferred orientation of Sb 2 Te 3 crystallites, enabling deposition of films with either 〈1 1 0〉 or 〈0 0 1〉 alignment. Use of micro-patterned substrates allowed selective deposition of crystalline 2D micro-arrays of Sb 2 Te 3 onto exposed TiN surfaces only.</abstract><doi>10.1039/C4TC02327G</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Atomic structure Chemical vapor deposition Crystal structure Deposition Electronic devices Materials selection Precursors Thin films
title	Chemical vapour deposition of antimony chalcogenides with positional and orientational control: precursor design and substrate selectivity
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