锰
草酸盐
热分解
无水的
分解
化学
晶体结构
无机化学
结构精修
无定形固体
粉末衍射
过渡金属
结晶学
材料科学
冶金
有机化学
催化作用
生物化学
作者
Anna N. Puzan,В.Н. Баумер,Dmytro Lisovytskiy,P.V. Mateychenko
标识
DOI:10.1016/j.jssc.2018.01.022
摘要
Abstract It is found that the known regular structures of MnC2O4·2H2O (I) do not allow to refine the powder X-ray pattern of (I) properly using the Rietveld method. Implementation of order-disorder scheme [28] via the including of appropriate displacement vector improves the refinement results. Also it is found that in the case of (I) the similar improvement may be achieved using the data on two phases of (I) obtained as result of decomposition MnC2O4·3H2O single crystal in the mother solution after growth. Thermal decomposition of (I) produce the anhydrous γ-MnC2O4 (II) the structure of which is differ from the known α- and β-modifications of VIIIb transition metal oxalates. The solved ab initio from the powder pattern structure (II) (space group Pmna, a = 7.1333 (1), b = 5.8787 (1), c = 9.0186 (2) A, V = 378.19 (1) A3, Z = 4 and Dx = 2.511 Mg m−3) contains seven-coordinated Mn atoms with Mn–O distances of 2.110–2.358 A, and is not close-packed. Thermal decomposition of (II) in air flows via forming of amorphous MnO, the heating of which up to 723 K is accompanied by oxidation of MnO to Mn2O3 and further recrystallization of the latter.
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