钨酸锰

钨酸锰
别名	钨酸亚锰; 钨酸锰(II)
识别
CAS号	14177-46-9（无水） ; 866597-81-1（水合）
性质
化学式	MnO4W
摩尔质量	302.78 g·mol−1
外观	白色或棕色固体
	若非注明，所有数据均出自标准状态（25 ℃，100 kPa）下。

钨酸锰是一种无机化合物，化学式为MnWO₄。它在自然界中以Hübnerite（英语：Hübnerite）矿物的形式存在。^[4]

制备及反应

钨酸锰可由氯化锰和钨酸钠在水溶液中反应制得^[5]，或由三氧化二锰和三氧化钨高温反应制得：^[6]

MnCl₂ + Na₂WO₄ → MnWO₄ + 2 NaCl

Mn₂O₃ + 2 WO₃ → 2 MnWO₄ + 1⁄2O₂

它和氨在800 °C反应，可以得到MnWN₂。^[7]它和Pr₂WO₆在高温反应，可以得到棕色的MnPr₂W₂O₁₀。^[8]

参考文献

^ Do Dang Trung; et al. Controlled synthesis of manganese tungstate nanorods for highly selective NH₃ gas sensor. Journal of Alloys and Compounds, 2018. 735. doi:10.1016/j.jallcom.2017.11.161.
^ Saeid Khademolhoseini & Ali Abedini. Investigation of the structural, optical and magnetic properties of manganese tungstate nanoparticles synthesized via a sonochemical method. Journal of Materials Science: Materials in Electronics, 2016. 27. doi:10.1007/s10854-016-4790-0
^ Somchai Thongtem, Surangkana Wannapop, Anukorn Phuruangrat, Titipun Thongtem. Cyclic microwave-assisted spray synthesis of nanostructured MnWO₄. Materials Letters. 2009. 63 (11): 833-836.
^ Hübnerite. mindat.org. [2024-07-27]
^ Shu-Jian Chen, Xue-Tai Chen, Ziling Xue, Jian-Hao Zhou, ing Li, Jian-Ming Hong and Xiao-Zeng You. Morphology control of MnWO₄ nanocrystals by a solvothermal route. J. Mater. Chem., 2003,13, 1132-1135. doi:10.1039/B300457K.
^ Bak, T.; Ziolkowski, J. Kinetics and mechanism of synthesis of cobalt and manganese tungstates. Bulletin de l'Academie Polonaise des Sciences, Serie des Sciences Chimiques. 1974, 22 (4): 333–340. ISSN 0001-4095.
^ Jekabs Grins, Per-Olov Käll and Gunnar Svensson. Synthesis and structural characterisation of MnWN₂ prepared by ammonolysis of MnWO₄. J. Mater. Chem., 1995,5, 571-575. doi:10.1039/JM9950500571.
^ E. Tomaszewicz. New praseodymium(III) and d-electron metals tungstates of the formula MPr₂W₂O₁₀ (M=Mn, Co, Cd). Journal of Thermal Analysis and Calorimetry, 2008. 93. 711-715. doi:10.1007/s10973-008-9133-9.

[1] Do Dang Trung; et al. Controlled synthesis of manganese tungstate nanorods for highly selective NH₃ gas sensor. Journal of Alloys and Compounds, 2018. 735. doi:10.1016/j.jallcom.2017.11.161.

[2] Saeid Khademolhoseini & Ali Abedini. Investigation of the structural, optical and magnetic properties of manganese tungstate nanoparticles synthesized via a sonochemical method. Journal of Materials Science: Materials in Electronics, 2016. 27. doi:10.1007/s10854-016-4790-0

[3] Somchai Thongtem, Surangkana Wannapop, Anukorn Phuruangrat, Titipun Thongtem. Cyclic microwave-assisted spray synthesis of nanostructured MnWO₄. Materials Letters. 2009. 63 (11): 833-836.

[4] Hübnerite. mindat.org. [2024-07-27]

[5] Shu-Jian Chen, Xue-Tai Chen, Ziling Xue, Jian-Hao Zhou, ing Li, Jian-Ming Hong and Xiao-Zeng You. Morphology control of MnWO₄ nanocrystals by a solvothermal route. J. Mater. Chem., 2003,13, 1132-1135. doi:10.1039/B300457K.

[6] Bak, T.; Ziolkowski, J. Kinetics and mechanism of synthesis of cobalt and manganese tungstates. Bulletin de l'Academie Polonaise des Sciences, Serie des Sciences Chimiques. 1974, 22 (4): 333–340. ISSN 0001-4095.

[7] Jekabs Grins, Per-Olov Käll and Gunnar Svensson. Synthesis and structural characterisation of MnWN₂ prepared by ammonolysis of MnWO₄. J. Mater. Chem., 1995,5, 571-575. doi:10.1039/JM9950500571.

[8] E. Tomaszewicz. New praseodymium(III) and d-electron metals tungstates of the formula MPr₂W₂O₁₀ (M=Mn, Co, Cd). Journal of Thermal Analysis and Calorimetry, 2008. 93. 711-715. doi:10.1007/s10973-008-9133-9.

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查论编锰化合物
锰(II)	MnF₂ MnCl₂ MnBr₂ MnI₂ Mn(ClO₃)₂ Mn(ClO₄)₂ Mn(IO₃)₂ MnO MnS MnS₂ MnSO₃ MnSO₄ MnSe MnSe₂ MnSeO₃ MnSeO₄（俄语：Селенат марганца） MnTe MnTe₂ Mn(NO₃)₂ MnCO₃ Mn(OH)₂ MnC₂O₄
锰(III)	MnF₃ MnCl₃ Mn₂O₃ Mn(OH)₃ Mn(NO₃)₃ K₆Mn₂O₆ NH₄MnP₂O₇
锰(IV)	MnO₂ MnF₄ Mn(OH)₄
锰(V)	K₃MnO₄ Na₃MnO₄ MnO₄^3-
锰(VI)	K₂MnO₄ Na₂MnO₄ (NH₄)₂MnO₄ MnO₄^2-
锰(VII)	Mn₂O₇ KMnO₄ HMnO₄ Ca(MnO₄)₂ NaMnO₄ NH₄MnO₄ AgMnO₄ MnO₄^- 其它 MnO₃F MnO₃Cl
其他	Mn₃O₄ Mn₂(CO)₁₀ MnH(CO)₅ Mn(C₅H₅)₂