鎢酸銅
鎢酸銅 | ||
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識別 | ||
CAS號 | 13587-35-4 | |
性質 | ||
化學式 | CuWO4 | |
摩爾質量 | 311.38(無水) 347.41(二水) g·mol⁻¹ | |
外觀 | 棕綠色[1]、棕黃色、金色[2]或黃棕色粉末(無水)[3] 綠色固體[4] 綠色粉末(二水)[3] | |
密度 | 7.5g/cm3(無水) | |
溶解性(水) | 難溶 | |
若非註明,所有數據均出自標準狀態(25 ℃,100 kPa)下。 |
鎢酸銅是一種無機化合物,為銅的鎢酸鹽,化學式為CuWO4。它在自然界中以銅白鎢礦的形式存在。[5]
製備
- Cu(NO3)2 + Na2WO4 → CuWO4↓ + 2 NaNO3
從溶液中沉澱出的鎢酸銅以二水合物的形式存在。[7]
氧化銅和三氧化鎢在600~800 °C反應也能得到產物:[8]
參考文獻
- ^ Tiziano Montini; et al. Synthesis, characterization and photocatalytic performance of transition metal tungstates. Chemical Physics Letters, 2010. 498 (1-3): 113-119. doi:10.1016/j.cplett.2010.08.026.
- ^ Leonid P. Dorfman, David L. Houck, Michael J. Scheithauer, Jeffrey N. Dann & Harry O. Fassett. Solid-phase synthesis of cupric tungstate. Journal of Materials Research, 2001. 16: 1096-1102. doi:10.1557/JMR.2001.0152
- ^ 3.0 3.1 W. M. Haynes. CRC Handbook of Chemistry and Physics 95thed. CRC Press, 2014. pp 4-62
- ^ 4.0 4.1 Peter Schmitt, Nadine Brem, Stephan Schunk, Claus Feldmann. Polyol-Mediated Synthesis and Properties of Nanoscale Molybdates/Tungstates: Color, Luminescence, Catalysis. Adv. Funct. Mater, 2011. 21 (6). doi:10.1002/adfm.201100655.
- ^ Felix Machatschki, [books.google.com Spezielle Mineralogie auf geochemischer Grundlage], Springer-Verlag, (德文)
- ^ F. Kosek, J. Horák, J. Kašpar, Leitfähigkeit von Kupferwolframat, Collection of Czechoslovak Chemical Communications, 24 (6): pp. 2034–2037, (德文) ,
- ^ Fei Lin; et al. Production of Graphene/Inorganic Matrix Composites through the Sintering of Graphene Oxide Flakes Decorated with CuWO4·2H2O Nanoparticles. ACS Omega 2023, 8, 14, 13131–13139. doi:10.1021/acsomega.3c00063.
- ^ Gmelin-Institut für Anorganische Chemie und Grenzg, [books.google.com Kupfer: Teil B — Lieferung 3: Verbindungen Kupfer-Lithium bis Kupfer-Eisen Reaktionen der Kupfer-Ionen], Springer-Verlag, (德文)