Stable Sulfuric Vapor Transport and Liquid Sulfur Growth on Transition Metal Dichalcogenides

Chareev, D. A.; Khan, M. E. H.; Karmakar, D.; Nekrasov, A. N.; Nickolsky, M. S.; Eriksson, O.; Delin, A.; Vasiliev, A. N.; Abdel-Hafiez, M.

doi:10.1021/acs.cgd.2c01318

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Название:	Stable Sulfuric Vapor Transport and Liquid Sulfur Growth on Transition Metal Dichalcogenides
Авторы:	Chareev, D. A. Khan, M. E. H. Karmakar, D. Nekrasov, A. N. Nickolsky, M. S. Eriksson, O. Delin, A. Vasiliev, A. N. Abdel-Hafiez, M.
Дата публикации:	2023
Издатель:	American Chemical Society
Библиографическое описание:	Chareev, DA, Khan, MEH, Karmakar, D, Nekrasov, AN, Nickolsky, MS, Eriksson, O, Delin, A, Vasiliev, AN & Abdel-Hafiez, M 2023, 'Stable Sulfuric Vapor Transport and Liquid Sulfur Growth on Transition Metal Dichalcogenides', Crystal Growth and Design, Том. 23, № 4, стр. 2287-2294. https://doi.org/10.1021/acs.cgd.2c01318 Chareev, D. A., Khan, M. E. H., Karmakar, D., Nekrasov, A. N., Nickolsky, M. S., Eriksson, O., Delin, A., Vasiliev, A. N., & Abdel-Hafiez, M. (2023). Stable Sulfuric Vapor Transport and Liquid Sulfur Growth on Transition Metal Dichalcogenides. Crystal Growth and Design, 23(4), 2287-2294. https://doi.org/10.1021/acs.cgd.2c01318
Аннотация:	Transition metal dichalcogenides (TMDs) are an emergent class of low-dimensional materials with growing applications in the field of nanoelectronics. However, efficient methods for synthesizing large monocrystals of these systems are still lacking. Here, we describe an efficient synthetic route for a large number of TMDs that were obtained in quartz glass ampoules by sulfuric vapor transport and liquid sulfur. Unlike the sublimation technique, the metal enters the gas phase in the form of molecules, hence containing a greater amount of sulfur than the growing crystal. We have investigated the physical properties for a selection of these crystals and compared them to state-of-the-art findings reported in the literature. The acquired electronic properties features demonstrate the overall high quality of single crystals grown in this work as exemplified by CoS2, ReS2, NbS2, and TaS2. This new approach to synthesize high-quality TMD single crystals can alleviate many material quality concerns and is suitable for emerging electronic devices. © 2023 The Authors. Published by American Chemical Society.
Ключевые слова:	ELECTRONIC PROPERTIES SINGLE CRYSTALS SULFUR DICHALCOGENIDES GLASS AMPOULES HIGH QUALITY LIQUID SULPHURS LOW-DIMENSIONAL MATERIALS MONO-CRYSTALS QUARTZ GLASS SYNTHETIC ROUTES VAPOR TRANSPORT VAPOR-LIQUID TRANSITION METALS
URI:	http://elar.urfu.ru/handle/10995/130317
Условия доступа:	info:eu-repo/semantics/openAccess cc-by
Текст лицензии:	https://creativecommons.org/licenses/by/4.0/
Идентификатор SCOPUS:	85151269182
Идентификатор WOS:	000955393900001
Идентификатор PURE:	37491835
ISSN:	1528-7483
DOI:	10.1021/acs.cgd.2c01318
Сведения о поддержке:	European Research Council, ERC: 854843-FASTCORR; Stiftelsen för Strategisk Forskning, SSF; National Science Council, NSC: 2018-05973; Knut och Alice Wallenbergs Stiftelse: 2018.0060; Vetenskapsrådet, VR: 2018-05393, VR 2015-04608, VR 2016-05980, VR 2019-05304; Energimyndigheten; Council on grants of the President of the Russian Federation: NSh-2394.2022.1.5 M.A.-H. acknowledges the financial support from the Swedish Research Council (VR) under project No. 2018-05393. D.A.C. acknowledges the financial support by the Grant of the President of the Russian Federation for the state support of the leading scientific schools of the Russian Federation No. NSh-2394.2022.1.5. O.E. acknowledges the financial support by the Knut and Alice Wallenberg Foundation through Grant No.2018.0060. O.E. also acknowledges the support by the Swedish Research Council (VR), the Foundation for Strategic Research (SSF), the Swedish Energy Agency (Energimyndigheten), the European Research Council (854843-FASTCORR), eSSENCE, and StandUP. The computations/data handling was enabled by resources provided by the Swedish National Infrastructure for Computing (SNIC). Financial support from Vetenskapsrådet (Grant Nos. VR 2015-04608, VR 2016-05980, and VR 2019-05304) and the Knut and Alice Wallenberg Foundation (Grant No. 2018.0060) is acknowledged. Computations were enabled by resources provided by the Swedish National Infrastructure for Computing (SNIC) at PDC and NSC, partially funded by the Swedish Research Council through grant agreement no. 2018-05973.
Располагается в коллекциях:	Научные публикации ученых УрФУ, проиндексированные в SCOPUS и WoS CC

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