Structural and electrical properties of a new ([SnSe]1.16)1(NbSe2)1 polytype

•A new polytype of the misfit layer compound ([SnSe]1.16)1(NbSe2)1 with rotational disorder was prepared.•Superconducting transition for this compound was observed at 1.7K.•The ferecrystalline compound is 1.6 times more conductive than the misfit layer compound. A new polytype of the misfit layer co...

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Veröffentlicht in:	Journal of alloys and compounds 2015-01, Vol.619 (C), p.861-868
Hauptverfasser:	Alemayehu, Matti B., Falmbigl, Matthias, Grosse, Corinna, Ta, Kim, Fischer, Saskia F., Johnson, David C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Electrical transport Thin films Vapor deposition X-ray diffraction
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creator	Alemayehu, Matti B. Falmbigl, Matthias Grosse, Corinna Ta, Kim Fischer, Saskia F. Johnson, David C.
description	•A new polytype of the misfit layer compound ([SnSe]1.16)1(NbSe2)1 with rotational disorder was prepared.•Superconducting transition for this compound was observed at 1.7K.•The ferecrystalline compound is 1.6 times more conductive than the misfit layer compound. A new polytype of the misfit layer compound ([SnSe]1.16)1(NbSe2)1 with extensive rotational disorder was prepared from designed modulated elemental reactants. This polytype, previously referred to as a ferecrystal due to the extensive rotational disorder, formed over a range of compositions and precursor thicknesses and the resulting c-axis lattice parameters ranged from 1.2210(4) to 1.2360(4)nm. These values bracket the value published for the crystalline misfit layer compound prepared at high temperature. The a- and b-axis in-plane lattice parameters of both the SnSe and NbSe2 constituents were incommensurate, which differs from the misfit layer compound formed via high temperature reaction that has a common b-axis lattice parameter for the two constituents. The in-plane area per unit cell of the ferecrystal is 1–2% larger than the compound formed at high temperature. The ferecrystalline ([SnSe]1.16)1(NbSe2)1 compound is 1.6 times more conductive than the misfit layer compound. Hall effect measurements indicate that the ferecrystal is a p-type metal and that the higher conductivity is a consequence of higher mobility of carriers in the ferecrystalline compound.
doi_str_mv	10.1016/j.jallcom.2014.09.084
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A new polytype of the misfit layer compound ([SnSe]1.16)1(NbSe2)1 with extensive rotational disorder was prepared from designed modulated elemental reactants. This polytype, previously referred to as a ferecrystal due to the extensive rotational disorder, formed over a range of compositions and precursor thicknesses and the resulting c-axis lattice parameters ranged from 1.2210(4) to 1.2360(4)nm. These values bracket the value published for the crystalline misfit layer compound prepared at high temperature. The a- and b-axis in-plane lattice parameters of both the SnSe and NbSe2 constituents were incommensurate, which differs from the misfit layer compound formed via high temperature reaction that has a common b-axis lattice parameter for the two constituents. The in-plane area per unit cell of the ferecrystal is 1–2% larger than the compound formed at high temperature. The ferecrystalline ([SnSe]1.16)1(NbSe2)1 compound is 1.6 times more conductive than the misfit layer compound. 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subjects	Electrical transport Thin films Vapor deposition X-ray diffraction
title	Structural and electrical properties of a new ([SnSe]1.16)1(NbSe2)1 polytype
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