溴化钇 是一种无机化合物,化学式为YBr3 ,为白色固体。无水溴化钇可由氧化钇 或溴化钇的水合物与溴化铵 反应,经(NH4 )3 YBr6 中间体得到。[ 2] 碳化钇 (YC2 )和溴反应,也能制得溴化钇。[ 3] 它可以被金属钇还原为低价态的YBr或Y2 Br3 [ 4] ;溴化钇、钇和锇 共同反应,可以生成Y4 Br4 Os[ 5] 。
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Lide, David R., Handbook of Chemistry and Physics 87, Boca Raton, Florida: CRC Press: 4–94, 1998, ISBN 0-8493-0594-2
^ Gerd Meyer, Siegfried Dötsch, Thomas Staffel. The ammonium-bromide route to anhydrous rare earth bromides MBr3 . Journal of the Less Common Metals. 1987-01, 127 : 155–160 [2020-07-04 ] . doi:10.1016/0022-5088(87)90372-9 . (原始内容存档 于2020-08-25) (英语) .
^ Mussler, R. E.; Campbell, T. T.; Block, F. E.; Robidart, G. B. Metallothermic reduction of yttrium halides. Bureau of Mines Report of Investigations , 1963. 6259. pp 21.
^ H. Mattausch, J. B. Hendricks, R. Eger, J. D. Corbett, A. Simon. Reduced halides of yttrium with strong metal-metal bonding: yttrium monochloride, monobromide, sesquichloride, and sesquibromide . Inorganic Chemistry. 1980-07, 19 (7): 2128–2132 [2020-07-04 ] . ISSN 0020-1669 . doi:10.1021/ic50209a057 . (原始内容存档 于2020-07-05) (英语) .
^ Peter K. Dorhout, John D. Corbett. A novel structure type in reduced rare-earth metal halides. One-dimensional confacial chains based on centered square antiprismatic metal units: Y4Br4Os and Er4Br4Os . Journal of the American Chemical Society. 1992-02, 114 (5): 1697–1701 [2020-07-04 ] . ISSN 0002-7863 . doi:10.1021/ja00031a024 . (原始内容存档 于2020-07-05) (英语) .