FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891001575> ?p ?o ?g. }

• W2891001575 endingPage "6527" @default.
• W2891001575 startingPage "6521" @default.
• W2891001575 abstract "Ternary sulfide nanostructures are small band gap materials that combine relatively low toxicity with useful optical properties for several applications, including photovoltaics. A systematic experimental study on the synthesis and mechanism of formation of copper thioantimonates (Cu3SbS4) and thioantimonides (CuSbS2) nanoparticles is presented. Antimony oxide (Sb2O3) was formed in an initial step by hydrolysis with oleylamine. The injection of a sulfur precursor led to the conversion to Cu3SbS4 driven by an excess of sulfur in oleylamine medium and at high temperatures (>200 °C). The sulfur excess was depleted as the reaction progressed, causing the reduction of the antimony(V) of the Cu3SbS4 back to antimony(III). Consequently, the Cu3SbS4 was converted to CuSbS2. In addition, the rate of antimony reduction increased with the reaction temperature. The formation mechanism unveiled here provides important insights toward the synthesis of analogous materials." @default.
• W2891001575 created "2018-09-27" @default.
• W2891001575 creator A5004606076 @default.
• W2891001575 creator A5045385769 @default.
• W2891001575 creator A5049161208 @default.
• W2891001575 creator A5050308226 @default.
• W2891001575 date "2018-09-11" @default.
• W2891001575 modified "2023-09-26" @default.
• W2891001575 title "Uncovering the Mechanism for the Formation of Copper Thioantimonate (Sb^V) Nanoparticles and Its Transition to Thioantimonide (Sb^III)" @default.
• W2891001575 cites W1940066385 @default.
• W2891001575 cites W1974752258 @default.
• W2891001575 cites W1975752859 @default.
• W2891001575 cites W1989886501 @default.
• W2891001575 cites W1990746017 @default.
• W2891001575 cites W1996712699 @default.
• W2891001575 cites W1998358855 @default.
• W2891001575 cites W1998878228 @default.
• W2891001575 cites W2002874316 @default.
• W2891001575 cites W2012369421 @default.
• W2891001575 cites W2012536846 @default.
• W2891001575 cites W2022207801 @default.
• W2891001575 cites W2022210090 @default.
• W2891001575 cites W2031622001 @default.
• W2891001575 cites W2038350189 @default.
• W2891001575 cites W2040713334 @default.
• W2891001575 cites W2042082802 @default.
• W2891001575 cites W2046865601 @default.
• W2891001575 cites W2054581485 @default.
• W2891001575 cites W2062485439 @default.
• W2891001575 cites W2063575064 @default.
• W2891001575 cites W2069631499 @default.
• W2891001575 cites W2079687160 @default.
• W2891001575 cites W2082866583 @default.
• W2891001575 cites W2091190821 @default.
• W2891001575 cites W2100408517 @default.
• W2891001575 cites W2100762975 @default.
• W2891001575 cites W2119662057 @default.
• W2891001575 cites W2138463916 @default.
• W2891001575 cites W2178059583 @default.
• W2891001575 cites W2193350622 @default.
• W2891001575 cites W2220938131 @default.
• W2891001575 cites W2252759474 @default.
• W2891001575 cites W2297527143 @default.
• W2891001575 cites W2299260139 @default.
• W2891001575 cites W2313677046 @default.
• W2891001575 cites W2313745588 @default.
• W2891001575 cites W2315356612 @default.
• W2891001575 cites W2323156445 @default.
• W2891001575 cites W2324952544 @default.
• W2891001575 cites W2328325168 @default.
• W2891001575 cites W2332304293 @default.
• W2891001575 cites W2332568537 @default.
• W2891001575 cites W2334877586 @default.
• W2891001575 cites W2406695177 @default.
• W2891001575 cites W2413953496 @default.
• W2891001575 cites W2465597905 @default.
• W2891001575 cites W2526461262 @default.
• W2891001575 cites W2557881086 @default.
• W2891001575 cites W2591331617 @default.
• W2891001575 cites W2606675993 @default.
• W2891001575 cites W2606729949 @default.
• W2891001575 cites W2627076008 @default.
• W2891001575 cites W2741446429 @default.
• W2891001575 cites W4382135653 @default.
• W2891001575 doi "https://doi.org/10.1021/acs.cgd.8b00667" @default.
• W2891001575 hasPublicationYear "2018" @default.
• W2891001575 type Work @default.
• W2891001575 sameAs 2891001575 @default.
• W2891001575 citedByCount "10" @default.
• W2891001575 countsByYear W28910015752019 @default.
• W2891001575 countsByYear W28910015752020 @default.
• W2891001575 countsByYear W28910015752021 @default.
• W2891001575 countsByYear W28910015752022 @default.
• W2891001575 crossrefType "journal-article" @default.
• W2891001575 hasAuthorship W2891001575A5004606076 @default.
• W2891001575 hasAuthorship W2891001575A5045385769 @default.
• W2891001575 hasAuthorship W2891001575A5049161208 @default.
• W2891001575 hasAuthorship W2891001575A5050308226 @default.
• W2891001575 hasConcept C155672457 @default.
• W2891001575 hasConcept C161790260 @default.
• W2891001575 hasConcept C171250308 @default.
• W2891001575 hasConcept C178790620 @default.
• W2891001575 hasConcept C179104552 @default.
• W2891001575 hasConcept C181966813 @default.
• W2891001575 hasConcept C185592680 @default.
• W2891001575 hasConcept C192562407 @default.
• W2891001575 hasConcept C199360897 @default.
• W2891001575 hasConcept C2778455166 @default.
• W2891001575 hasConcept C2779775279 @default.
• W2891001575 hasConcept C2780596425 @default.
• W2891001575 hasConcept C41008148 @default.
• W2891001575 hasConcept C49040817 @default.
• W2891001575 hasConcept C518881349 @default.
• W2891001575 hasConcept C541565711 @default.
• W2891001575 hasConcept C544778455 @default.
• W2891001575 hasConcept C64452783 @default.
• W2891001575 hasConcept C65024703 @default.
• W2891001575 hasConceptScore W2891001575C155672457 @default.

• next