Bibliografias temáticas / Copper Antimony Sulfide

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Literatura científica selecionada sobre o tema "Copper Antimony Sulfide"

Autor: Grafiati
Publicado: 7 de junho de 2025
Última modificação: 2 de agosto de 2025

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Artigos de revistas sobre o assunto "Copper Antimony Sulfide"

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Sarswat, Prashant K., and Michael L. Free. "Enhanced Photoelectrochemical Response from Copper Antimony Zinc Sulfide Thin Films on Transparent Conducting Electrode." International Journal of Photoenergy 2013 (2013): 1–7. http://dx.doi.org/10.1155/2013/154694.

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Copper antimony sulfide (CAS) is a relatively new class of sustainable absorber material, utilizing cost effective and abundant elements. Band gap engineered, modified CAS thin films were synthesized using electrodeposition and elevated temperature sulfurization approach. A testing analog of copper zinc antimony sulfide (CZAS) film-electrolyte interface was created in order to evaluate photoelectrochemical performance of the thin film of absorber materials. Eu3+/Eu2+redox couple was selected for this purpose, based on its relative band offset with copper antimony sulfide. It was observed that
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Solozhenkin, Petr M. "Technology of Dry Wastes Processing of Sorption and Solutions of Antimony Chlorides." Transbaikal State University Journal 30, no. 1 (2024): 73–80. http://dx.doi.org/10.21209/2227-9245-2024-30-1-73-80.

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Reducing the loss of valuable components during the processing of complex gold-antimony ores, increasing the extraction of antimony during the flotation of sulfide minerals, is an urgent scientific problem. The aim of the study is to maximize the extraction of gold and antimony from dry sorption waste after gold cyanidation, and to improve the reagent regime of the antimony mineral flotation process. Research objectives are as follows: evaluation of the technology efficiency for processing dry sorption waste; extraction of gold from the cake of acidic leaching of antimony; production of variou
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Vinayakumar, V., S. Shaji, D. Avellaneda, J. A. Aguilar-Martínez, and B. Krishnan. "Copper antimony sulfide thin films for visible to near infrared photodetector applications." RSC Advances 8, no. 54 (2018): 31055–65. http://dx.doi.org/10.1039/c8ra05662e.

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Wang, Wei, Zheng Xu, Song Tao Huang, et al. "Characteristics Research and Selective Leaching of Anode Slime with High Content of Copper and Stannum." Advanced Materials Research 1010-1012 (August 2014): 1594–97. http://dx.doi.org/10.4028/www.scientific.net/amr.1010-1012.1594.

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The anode slime comes from the process of scrap copper electrolysis which contains high content of copper, stannum and some other metals, such as lead, antimony and precious metals. The result of particle size distribution showed that copper exist in large particle-size parts more than in small ones, while most of stannum concentrate in small particle ones. XRD and MLA were employed to characterize the anode slime. Copper is occurrence in copper sulfide, while stannum is in stannic oxide. Selective leaching by using hydrochloric acid has been conducted based on initial analysis. 97.86% of anti
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Zhang, Feng, Keqiang Chen, Xiantao Jiang, et al. "Nonlinear optical absorption and ultrafast carrier dynamics of copper antimony sulfide semiconductor nanocrystals." Journal of Materials Chemistry C 6, no. 33 (2018): 8977–83. http://dx.doi.org/10.1039/c8tc01606b.

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Ternary copper antimony sulfide nanocrystals (CAS NCs), a promising solar cell candidate, have been proposed and investigated from the perspective of nonlinear optical response and ultrafast photoinduced carrier dynamics.
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Rylnikova, Marina, Viktor Fedotenko, and Natalia Mitishova. "Influence of structural and textural features of ores and rocks on mine dust explosion hazard during development of pyrite deposits." E3S Web of Conferences 192 (2020): 03017. http://dx.doi.org/10.1051/e3sconf/202019203017.

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In the practice of mining works, sulfide-dust explosions often occur during underground development of pyrite ore deposits: copper-zinc, lead-zinc, copper-nickel, antimony, and others. This makes it necessary to conduct researches aimed at improvement of methods for studying the explosive properties of sulfide dust and development of industrial and environmental safety requirements for mining operations. Currently, there is no generally accepted state-approved regulatory procedure for assessment of sulfide dust explosion hazards during underground mining operations in Russia. Assessment of the
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Zeng, Qiang, Yunxiang Di, Chun Huang, et al. "Famatinite Cu3SbS4 nanocrystals as hole transporting material for efficient perovskite solar cells." Journal of Materials Chemistry C 6, no. 30 (2018): 7989–93. http://dx.doi.org/10.1039/c8tc02133c.

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Zou, Yu, and Jiang Jiang. "Colloidal synthesis of chalcostibite copper antimony sulfide nanocrystals." Materials Letters 123 (May 2014): 66–69. http://dx.doi.org/10.1016/j.matlet.2014.02.069.

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Xu, Dongying, Shuling Shen, Yejun Zhang, Hongwei Gu, and Qiangbin Wang. "Selective Synthesis of Ternary Copper–Antimony Sulfide Nanocrystals." Inorganic Chemistry 52, no. 22 (2013): 12958–62. http://dx.doi.org/10.1021/ic401291a.

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Rath, Thomas, Andrew J. MacLachlan, Michael D. Brown, and Saif A. Haque. "Structural, optical and charge generation properties of chalcostibite and tetrahedrite copper antimony sulfide thin films prepared from metal xanthates." Journal of Materials Chemistry A 3, no. 47 (2015): 24155–62. http://dx.doi.org/10.1039/c5ta05777a.

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Chalcostibite and tetrahedrite thin films are prepared from solution on mesoporous TiO<sub>2</sub> layers and photoinduced generation of long-lived charges is detected in these TiO<sub>2</sub>/copper antimony sulfide heterojunctions.
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Teses / dissertações sobre o assunto "Copper Antimony Sulfide"

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Mao, Baodong. "Synthesis and Property Characterization of Novel Ternary Semiconductor Nanomaterials." Case Western Reserve University School of Graduate Studies / OhioLINK, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=case1334065821.

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Lemoine, Pascale. "Combinaisons ternaires soufrées formées par l'europium et un second métal : exemples de dérivés de l'europium à valence mixte; synthèse, structures et propriétés physiques." Paris 6, 1986. http://www.theses.fr/1986PA066416.

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L'études des combinaisons ternaires soufrées formées par l'europium et un second métal conduit dans de nombreux cas a des composes qui ne contiennent que de l'europium divalent, tels que Eu3Sb4S9, EuLn2S4 (Ln: Dy—Lu, Y) et Eu1,1Bi2S4. . Dans ces trois composes Eu (ii) présente un environnement 8-prismatique et le second métal, un environnement octaédrique. Dans Eu3Sb4S9, le doublet 5s2 non-engagé de Sb (iii) crée de larges tunnels au sein de la structure. Les composés EuLn2S4 ont une structure de type CaFe2O4. Le réseau du composé Eu1, 1Bi2S4 contient de larges canaux partiellement occupés par
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Capítulos de livros sobre o assunto "Copper Antimony Sulfide"

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O'Hara, Patrick F. "Geochemistry of Early Proterozoic Felsic Volcanic Rocks Associated With Gold Mineralization at the Bell Ranch Prospect, Yavapai County, Arizona." In Proterozoic Ore Deposits of the Southwestern U.S. Society of Economic Geologists, 1987. http://dx.doi.org/10.5382/gb.01.24.

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Abstract During 1983, one hundred-sixteen samples were collected at the Bell Ranch prospect and analyzed for major elements plus zirconium, gold, silver, arsenic, antimony, mercury, copper, lead, and zinc. Thirty-eight samples were collected from rocks interpreted to have a felsic volcanic protolith. These geochemical data are part of a regional study of Early Proterozoic hydrothermal systems associated with strata-bound mineralization. The regional study includes lithologic and alteration mapping as well as analysis of more than 1,300 geochemical samples from eleven properties. The original p
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"antimony copper sulfid(e) (US)." In Dictionary Geotechnical Engineering/Wörterbuch GeoTechnik. Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-41714-6_12190.

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Wothers, Peter. "The Salt Makers." In Antimony, Gold, and Jupiter's Wolf. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780199652723.003.0013.

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This chapter looks at the elements from the penultimate group of the periodic table—the halogens (‘salt-formers’). We shall see that the first of these elements was discovered by Scheele during his investigations of the mineral pyrolusite. Lavoisier knew of the element but he failed to recognize it as such since he was convinced the gas had to contain oxygen and so must be a compound. It was left to Davy to prove that this was not so, which led to the English chemist naming this element that had been discovered (but not properly named) over thirty years before by the great Scheele. Davy’s choi
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Trabalhos de conferências sobre o assunto "Copper Antimony Sulfide"

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Kumar, YB Kishore, Kiran Yb, Hariprasad Tarigonda, and Surya Sekhar Reddy M. "Preparation of Copper Antimony Sulfide Thin Film Solar Cells by Chemical Synthesis." In Advances in Design, Materials, Manufacturing and Surface Engineering for Mobility (ADMMS’25). SAE International, 2025. https://doi.org/10.4271/2025-28-0117.

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&lt;div class="section abstract"&gt;&lt;div class="htmlview paragraph"&gt;Copper Antimony Sulfide (CuSbS&lt;sub&gt;2&lt;/sub&gt;) is a promising ternary semiconductor for use as an absorber layer in third-generation thin film heterojunction solar cells. This newly developed optoelectronic material offers a viable alternative to cadmium telluride (CdTe) and copper indium gallium di-selenide (Cu(In,Ga)Se&lt;sub&gt;2&lt;/sub&gt;) due to its composition of inexpensive, readily available, and non-toxic elements. These films were successfully produced at an optimal substrate temperature of 533 K usi
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Taskinen, P., and D. Lindberg. "Challenges facing non-ferrous metal production." In 12th International Conference of Molten Slags, Fluxes and Salts (MOLTEN 2024) Proceedings. Australasian Institute of Mining and Metallurgy (AusIMM), 2024. http://dx.doi.org/10.62053/vtjd2567.

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The increase in metals demand in the electrifying globe means significant growth in the smelting of copper, nickel, zinc, and lead, produced from primary sulfide sources or using sulfide mattes as the intermediates of the process chains. This means that leaner and complex mineral deposits will be evaluated as ores and are in the future traded in the commodity market for smelting and refining to pure metals. An important issue in the trend is the technology metals, like antimony, tellurium, and gallium, which exist as trace elements in sulfide ores and form no ores of their own. Their recovery
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Hu, X., L. Sundqvist Ökvist, and J. Björkvall. "Electrolytic reduction of metal sulfides/oxides in molten salts for sustainable metal production." In 12th International Conference of Molten Slags, Fluxes and Salts (MOLTEN 2024) Proceedings. Australasian Institute of Mining and Metallurgy (AusIMM), 2024. http://dx.doi.org/10.62053/unyj2040.

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The metal production industry is a significant contributor to global CO2 emissions due to the use of fossil fuels such as coal and coke. To mitigate these emissions and meet climate goals, innovative and sustainable technologies are required. Molten salt electrolysis is a promising technology that directly produces metals from their precursor sulfides or oxides using electricity. When combined with renewable electricity and an inert anode, the electrolysis process can be carbon neutral. This paper presents the results of two pilot-scale studies on the electrolytic reduction of metal oxides and
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McConnell, D. R. "Prospects for Marine Minerals in the US Pacific OCS and EEZ." In Offshore Technology Conference. OTC, 2024. http://dx.doi.org/10.4043/35266-ms.

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Abstract The seafloor in the US Pacific OCS and EEZ is enriched to varying degrees in critical and economically important minerals such as nickel, manganese, cobalt, copper, zinc, REY (rare earth elements plus yttrium), titanium, vanadium, antimony, gold, and silver. These mineral deposits take the form of polymetallic nodules on the seabed, cobalt rich ferromanganese crusts on seamounts and ridges swept clean of sediment accumulation, and seafloor massive sulfides formed by hydrothermal systems at geologic plate spreading centers and volcanic margins. Each of these mineral deposits form on or
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