Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties

Copper, antimony and sulfur in elemental form were applied for one-pot solid-state mechanochemical synthesis of skinnerite (Cu(3)SbS(3)) in a laboratory mill and an industrial mill. This synthesis was completed after 30 min of milling in the laboratory mill and 120 min in the industrial mill, as cor...

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Autores principales: Dutková, Erika, Sayagués, María Jesús, Fabián, Martin, Baláž, Matej, Kováč, Jaroslav, Kováč Junior, Jaroslav, Stahorský, Martin, Achimovičová, Marcela, Lukáčová Bujňáková, Zdenka
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9822502/
https://www.ncbi.nlm.nih.gov/pubmed/36615519
http://dx.doi.org/10.3390/molecules28010326
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author Dutková, Erika
Sayagués, María Jesús
Fabián, Martin
Baláž, Matej
Kováč, Jaroslav
Kováč Junior, Jaroslav
Stahorský, Martin
Achimovičová, Marcela
Lukáčová Bujňáková, Zdenka
author_facet Dutková, Erika
Sayagués, María Jesús
Fabián, Martin
Baláž, Matej
Kováč, Jaroslav
Kováč Junior, Jaroslav
Stahorský, Martin
Achimovičová, Marcela
Lukáčová Bujňáková, Zdenka
author_sort Dutková, Erika
collection PubMed
description Copper, antimony and sulfur in elemental form were applied for one-pot solid-state mechanochemical synthesis of skinnerite (Cu(3)SbS(3)) in a laboratory mill and an industrial mill. This synthesis was completed after 30 min of milling in the laboratory mill and 120 min in the industrial mill, as corroborated by X-ray diffraction. XRD analysis confirmed the presence of pure monoclinic skinnerite prepared in the laboratory mill and around 76% monoclinic skinnerite, with the secondary phases famatinite (Cu(3)SbS(4); 15%), and tetrahedrite (Cu(11.4)Sb(4)S(13); 8%), synthesized in the industrial mill. The nanocrystals were agglomerated into micrometer-sized grains in both cases. Both samples were nanocrystalline, as was confirmed with HRTEM. The optical band gap of the Cu(3)SbS(3) prepared in the laboratory mill was determined to be 1.7 eV with UV–Vis spectroscopy. Photocurrent responses verified with I–V measurements under dark and light illumination and Cu(3)SbS(3) nanocrystals showed ~45% enhancement of the photoresponsive current at a forward voltage of 0.6 V. The optical and optoelectrical properties of the skinnerite (Cu(3)SbS(3)) prepared via laboratory milling are interesting for photovoltaic applications.
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spelling pubmed-98225022023-01-07 Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties Dutková, Erika Sayagués, María Jesús Fabián, Martin Baláž, Matej Kováč, Jaroslav Kováč Junior, Jaroslav Stahorský, Martin Achimovičová, Marcela Lukáčová Bujňáková, Zdenka Molecules Article Copper, antimony and sulfur in elemental form were applied for one-pot solid-state mechanochemical synthesis of skinnerite (Cu(3)SbS(3)) in a laboratory mill and an industrial mill. This synthesis was completed after 30 min of milling in the laboratory mill and 120 min in the industrial mill, as corroborated by X-ray diffraction. XRD analysis confirmed the presence of pure monoclinic skinnerite prepared in the laboratory mill and around 76% monoclinic skinnerite, with the secondary phases famatinite (Cu(3)SbS(4); 15%), and tetrahedrite (Cu(11.4)Sb(4)S(13); 8%), synthesized in the industrial mill. The nanocrystals were agglomerated into micrometer-sized grains in both cases. Both samples were nanocrystalline, as was confirmed with HRTEM. The optical band gap of the Cu(3)SbS(3) prepared in the laboratory mill was determined to be 1.7 eV with UV–Vis spectroscopy. Photocurrent responses verified with I–V measurements under dark and light illumination and Cu(3)SbS(3) nanocrystals showed ~45% enhancement of the photoresponsive current at a forward voltage of 0.6 V. The optical and optoelectrical properties of the skinnerite (Cu(3)SbS(3)) prepared via laboratory milling are interesting for photovoltaic applications. MDPI 2022-12-31 /pmc/articles/PMC9822502/ /pubmed/36615519 http://dx.doi.org/10.3390/molecules28010326 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Dutková, Erika
Sayagués, María Jesús
Fabián, Martin
Baláž, Matej
Kováč, Jaroslav
Kováč Junior, Jaroslav
Stahorský, Martin
Achimovičová, Marcela
Lukáčová Bujňáková, Zdenka
Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties
title Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties
title_full Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties
title_fullStr Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties
title_full_unstemmed Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties
title_short Nanocrystalline Skinnerite (Cu(3)SbS(3)) Prepared by High-Energy Milling in a Laboratory and an Industrial Mill and Its Optical and Optoelectrical Properties
title_sort nanocrystalline skinnerite (cu(3)sbs(3)) prepared by high-energy milling in a laboratory and an industrial mill and its optical and optoelectrical properties
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9822502/
https://www.ncbi.nlm.nih.gov/pubmed/36615519
http://dx.doi.org/10.3390/molecules28010326
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