銪化合物

銪化合物是鑭系金屬銪（元素符號：Eu）形成的化合物，在這些化合物中，銪一般顯+3價，如EuCl₃、Eu(NO₃)₃等；+2價的銪化合物是已知的，這也是水溶液中鑭系金屬最穩定的二價離子。^[1]

銪化合物在395 nm和365 nm的紫外光下發出熒光。

硝酸銪和氫氧化鈉反應，生成氫氧化銪沉澱。反應用365 nm的紫外光照射。

氧族化物

氧化亞銪（俄語：Оксид европия(II)）可由氧化銪在高溫下用金屬銪還原得到，它具有岩鹽結構，為深紅色固體，在77 K具有鐵磁性。它有成為磁製冷（英語：Magnetic refrigeration）材料的潛力（ΔS_mag=−143 mg/cm³ K，50 kOe）。^[2]^[3]硫化亞銪也具有鐵磁性，但碲化亞銪卻是反鐵磁性的。^[2]銪的混合價態氧化物Eu₃O₄可由氧化銪用還原劑在氫氣氣氛下還原得到，如：^[4]

2 Eu₂O₃ + 2 EuOCl + 2 LiH → 2 Eu₃O₄ + 2 LiCl + H₂↑

三氧化二銪（氧化銪）是銪最穩定的氧化物，是高熔點的淺粉色固體，可由硝酸銪的熱分解反應製得。^[2]它和水反應，可以得到EuOOH。^[5]可溶性銪鹽和氨水或氫氧化鈉反應，能夠沉澱出氫氧化物Eu(OH)₃，但有多羥基化合物（如葡萄糖）存在時，沉澱不完全。^[2]三硫化二銪可由Eu(Et₂NCS₂)₃·Phen在500~600 °C分解製得，^[6]硫氰酸鹽Eu(NCS)₃的分解也會得到三硫化二銪；^[7]它的兩種晶型α型和γ型分別屬正交晶系和立方晶系。^[8] 氧硫化銪由氧化銪在二硫化碳/氬/低壓氧氣流中反應得到，它是三斜晶系的固體，空間群P3m1，其光學帶隙為4.4 eV。^[9]氧硒化銪和氧碲化銪可以由氧化銪和硒或碲在600 °C反應製得，^[10]氧硒化物在空氣中加熱，氧化為氧亞硒酸鹽，^[11]氧碲化物也會發生類似反應，得到Eu₂TeO₆。^[12]

金屬銪在固態氬中和水反應，可以得到Eu(H₂O)和Eu(H₂O)₂配合物。Eu(H₂O)經過重排得到HEuOH，並進一步分解為EuO和H₂；Eu(H₂O)₂則分解為Eu(OH)₂和H₂。^[13]

鹵化物

銪可以形成EuX₃（X=F, Cl, Br, I）四種鹵化物，除氟化物外均易溶於水，在水中是強電解質。無水鹵化銪可由氧化物或鹵化物的水合物反應製得：^[14]

Eu₂O₃ + 6 NH₄Cl → 2 EuCl₃ + 3 H₂O + 6 NH₃↑

EuCl₃·6H₂O + 6 SOCl₂ → EuCl₃ + 6 SO₂↑ + 12 HCl↑

其中，碘化銪只能通過氧化銪和氫碘酸反應得到^[15]，直接用碘化銨處理反應物會得到二價的碘化亞銪。^[16]

含氧酸鹽

硫酸亞銪是二價銪的硫酸鹽，它可由汞作為陰極，電解硫酸銪的溶液得到，或者用鋅汞齊還原氯化銪，再和硫酸反應製得。^[17]它和碳酸鈉或草酸銨反應，可以分別得到碳酸亞銪和草酸亞銪。^[17]

EuSO₄ + Na₂CO₃ + xH₂O → EuCO₃·xH₂O + Na₂SO₄

EuSO₄ + (NH₄)₂C₂O₄(飽和) + H₂O → EuC₂O₄·H₂O + (NH₄)₂SO₄

三價的硫酸銪可以直接由氧化銪和稀硫酸反應，並結晶得到，對水合物的脫水可以得到無水物。硫酸銪可溶於水，其八水合物在20 °C時的溶解度為2.56 g。^[18]銪的亞硫酸鹽（Eu₂(SO₃)₃·nH₂O，n=0, 3, 6^[19]）及其鹼式鹽（EuOHSO₃·4H₂O^[20]）是已知的，亞硫酸鹽在一氧化碳氣氛中加熱，會經過脫水得到無水物，經過Eu₂O₂SO₄，最終得到氧硫化物Eu₂O₂S。^[21]

硝酸銪可由氧化銪和硝酸反應並結晶得到，晶體用45~55%硫酸乾燥，可以得到六水合物。^[22]其無水物可以通過氧化銪和四氧化二氮反應得到，而加熱水合物只能得到鹼式鹽EuONO₃。^[23]磷酸銪可以通過氯化銪和磷酸氫二銨（或氧化銪和5 mol/L的磷酸^[24]）反應得到，其白色的一水合物從溶液中沉澱。它在600~800 °C失水，由一水的六方相轉變為無水的單斜相。^[25]氧化銪和五氧化二砷反應，得到砷酸銪，它是無色晶體，具有磷釔礦結構。^[26]

碳酸銪是銪的碳酸鹽之一，可由二氧化碳飽和的碳酸氫鈉稀溶液與可溶性銪鹽反應得到，它加熱分解，生成氧化銪和二氧化碳。其鹼式鹽及復鹽是已知的。^[27]乙酸銪是淺粉色的固體，可以從水溶液中結晶出四水合物，它用硫酸乾燥得到三水合物。^[28]硝酸銪和草酸反應得到草酸銪十水合物，它在100 °C轉化為五水合物。原料使用草酸鉀只能得到復鹽KEu(C₂O₄)₂·2H₂O。^[28]將草酸銪和草酸於200 °C進行草酸反應，可以得到配位聚合物[Eu(C₂O₄)(HCOO)]_n。^[29]草酸銪在二氧化碳氣氛中加熱至320 °C，可以得到草酸亞銪：^[30]

Eu₂(C₂O₄)₃ → 2 EuC₂O₄ + 2 CO₂↑

有機銪化合物

有機銪化合物是含Eu–C鍵的一類金屬有機化合物，早期研究的有銪的環戊二烯配合物，它們可以由茂基鈉和無水鹵化銪在四氫呋喃中反應製得，如：^[32]^[33]

EuCl₃ + 3 C₅H₅Na → (C₅H₅)₃Eu + 3 NaCl

EuI₂ + 2 (C₅HⁱPr₄)Na → (C₅HⁱPr₄)₂Eu + 2 NaI

三茂銪是棕色固體，可以和過氧化氫反應得到環戊二烯過氧化銪^[34]；二(四異丙基茂)銪是橙紅色固體，可於165 °C熔化。^[33]環壬四烯和銪(II)的配合物可以由類似方法製得，它的甲苯溶液在516 nm發出藍綠色的熒光，相比其它有機銪(II)夾心配合物（約630 nm）有着明顯的藍移。^[35]

除了利用複分解反應製備有機銪化合物外，也能直接通過金屬銪參與反應，如銪和五甲基環戊二烯反應生成淺橙色的二(五甲基環戊二烯)銪；^[33]和環辛四烯反應，得到淺綠色的環辛四烯銪。^[36]

應用

三價銪的化合物在激發下可以發出紅光，如氧化銪可用於顯像管電視中，^[37]摻銪氧硫化釔（Y₂O₂S:Eu³⁺）可用作熒光粉等。^[38]此外，銪化合物還能用於防偽材料製造。^[39]

參考文獻

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無機化學叢書. pp 187-188. 1.2.3 氧化態及電極電勢.
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[4]
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Roméro, Stéphane; Mosset, Alain; Trombe, Jean-Christian; Macaudière, Pierre. Low-temperature process of the cubic lanthanide sesquisulfides:remarkable stabilization of the γ-Ce2S3 phasei. Journal of Materials Chemistry. 1997, 7 (8): 1541–1547. ISSN 0959-9428. doi:10.1039/a608443e.
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Kent, Richard A.; Eick, Harry A. The Preparation and Properties of Some Lanthanum(III) Monotelluroöxides. Inorganic Chemistry. 1962, 1 (4): 956–958. ISSN 0020-1669. doi:10.1021/ic50004a061.
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Jia Xu, Mingfei Zhou. Reactions of Early Lanthanide Metal Atoms (Nd, Sm, Eu) with Water Molecules. A Matrix Isolation Infrared Spectroscopic and Theoretical Study. The Journal of Physical Chemistry A. 2006-09, 110 (36): 10575–10582 [2019-10-26]. ISSN 1089-5639. doi:10.1021/jp063776g. （原始內容存檔於2020-08-01）（英語）.
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DIAO, Chengpeng; YU, Jinqiu; LI, Hongwei; PENG, Peng; WU, Hao; HE, Huaqiang; YAN, Shihong; HU, Yunsheng. Ammonium-iodide route to anhydrous EuI₂: mechanism and preparation. Journal of Rare Earths. 2015, 33 (11): 1189–1195. ISSN 1002-0721. doi:10.1016/S1002-0721(14)60545-7.
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Zhen Li, Rosario Núñez, Mark E. Light, Eliseo Ruiz, Francesc Teixidor, Clara Viñas, Daniel Ruiz-Molina, Claudio Roscini, José Giner Planas. Water-Stable Carborane-Based Eu³⁺/Tb³⁺ Metal–Organic Frameworks for Tunable Time-Dependent Emission Color and Their Application in Anticounterfeiting Bar-Coding. Chem. Mater. 2022, 34, 10, 4795–4808. doi:10.1021/acs.chemmater.2c00323
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參考書籍

易憲武, 黃春輝, 王慰, 劉餘九, 吳瑾光. 無機化學叢書第七卷鈧、稀土元素. 北京: 科學出版社, 1992. ISBN 9787030305749.
日本化學會編. 安家駒, 陳之川譯. 無機化合物合成手冊第二卷. 北京: 化學工業出版社, 1986. CSBN 15063·3726 （無機化合物の合成Ⅱ. 東京: 丸善株式會社, 1977）

[1] [1]
無機化學叢書. pp 187-188. 1.2.3 氧化態及電極電勢.

[wucong-EuE-2] [2]
無機化學叢書. pp 200-203. 2. 氧族化合物; pp 215. 3. 氧化物及氫氧化物.

[3] [3]
Ahn, Kyunghan; Pecharsky, A. O.; Gschneidner, K. A.; Pecharsky, V. K. Preparation, heat capacity, magnetic properties, and the magnetocaloric effect of EuO. Journal of Applied Physics. 2005, 97 (6): 063901. ISSN 0021-8979. doi:10.1063/1.1841463.

[4] [4]
Georg Brauer (Hrsg.), unter Mitarbeit von Marianne Baudler u. a.: Handbuch der Präparativen Anorganischen Chemie. 3., umgearbeitete Auflage. Band I, Ferdinand Enke, Stuttgart 1975, pp 1091. ISBN 3-432-02328-6.

[5] [5]
Batsanov, S. S.; Deribas, A. A.; Kustova, G. N. Reaction of rare earth metal oxides with water. Zhurnal Neorganicheskoi Khimii, 1967. 12 (9): 2283-2286. ISSN 0044-457X.

[6] [6]
Kuzmina, N. P.; Ivanov, R. A.; Paramonov, S. E.; Martynenko, L. I. Volatile lanthanide diethyldithiocarbamates as precursors for lanthanide sulfide film deposition. Proceedings - Electrochemical Society, 1997. 97 (25). 880-885. ISSN: 0161-6374.

[7] [7]
Grizik, A. A.; Eliseev, A. A.; Borodulenko, G. P.; Tolstova, V. A. Low-temperature form of Ln2S3 (Ln = europium, samarium, or gadolinium). Zhurnal Neorganicheskoi Khimii, 1977. 22 (2): 558-559. ISSN: 0044-457X.

[8] [8]
Roméro, Stéphane; Mosset, Alain; Trombe, Jean-Christian; Macaudière, Pierre. Low-temperature process of the cubic lanthanide sesquisulfides:remarkable stabilization of the γ-Ce2S3 phasei. Journal of Materials Chemistry. 1997, 7 (8): 1541–1547. ISSN 0959-9428. doi:10.1039/a608443e.

[9] [9]
Llanos, J; Sánchez, V; Mujica, C; Buljan, A. Synthesis, physical and optical properties, and electronic structure of the rare-earth oxysulfides Ln₂O₂S (Ln=Sm, Eu). Materials Research Bulletin. 2002, 37 (14): 2285–2291. ISSN 0025-5408. doi:10.1016/S0025-5408(02)00936-4.

[10] [10]
Sadovskaya, O. A.; Yarembash, E. I.; Eliseev, A. A. Europium oxychalcogenides. Izvestiya Akademii Nauk SSSR, Neorganicheskie Materialy, 1974. 10 (11): 2076-2077. ISSN 0002-337X.

[11] [11]
Markku Leskela. Thermal stability and infrared absorption spectrum of europium oxyselenide (Eu₂O₂Se). Finnish Chemical Letters, 1980 (6): 173-176. ISSN 0303-4100.

[12] [12]
Kent, Richard A.; Eick, Harry A. The Preparation and Properties of Some Lanthanum(III) Monotelluroöxides. Inorganic Chemistry. 1962, 1 (4): 956–958. ISSN 0020-1669. doi:10.1021/ic50004a061.

[13] [13]
Jia Xu, Mingfei Zhou. Reactions of Early Lanthanide Metal Atoms (Nd, Sm, Eu) with Water Molecules. A Matrix Isolation Infrared Spectroscopic and Theoretical Study. The Journal of Physical Chemistry A. 2006-09, 110 (36): 10575–10582 [2019-10-26]. ISSN 1089-5639. doi:10.1021/jp063776g. （原始內容存檔於2020-08-01）（英語）.

[14] [14]
無機化學叢書. pp 210-215. 2. 鹵素化合物

[15] [15]
Emel'yanov, V. I.; Kuznetsova, L. I.; Abramova, L. V.; Ezhov, A. I. Systems Eu₂O₃-HI-H₂O and EuI₃-HI-H₂O at 25°C. Zhurnal Neorganicheskoi Khimii, 1997. 42(8): 1394-1396.

[16] [16]
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