Umbrella stoichiometry: a guide to the solid state chemistry of copper-rich oxides

International Journal of Inorganic Materials Pub Date : 2001-12-01 DOI:10.1016/S1466-6049(01)00130-1

D.A Vander Griend, K.R Poeppelmeier

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引用次数: 3

Abstract

Umbrella stoichiometries are relatively unstable compositions that can be leveraged to promote the formation of unconventional solid state structures. La^III and Cu^II in a one to one ratio is such a stoichiometry. The addition of a third metal such as Mo^VI, V^V, or Ru^V generates a complex set of potential products. Nonetheless, La₄Cu₃MoO₁₂ forms a single phase because no low energy multiphase alternatives exist for a stoichiometry so close to an umbrella stoichiometry. The cations in the structure are severely under-coordinated, yet oxygen can be removed from the structure by substituting Cu^II for Mo^VI. La₄Cu_3+xMo_1−xO_12−2x forms a single phase for 0.0≤x≤0.12 before La₂Cu₂O₅ appears. This structurally unfavorable substitution is tolerated because it moves the composition even closer to the umbrella stoichiometry.

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保护伞化学计量学:富铜氧化物的固态化学指南

伞状化学计量是相对不稳定的成分，可以用来促进非常规固态结构的形成。LaIII和CuII的比例是一比一就是这样的化学计量。添加第三种金属，如MoVI、VV或RuV，会生成一组复杂的潜在产品。尽管如此，La4Cu3MoO12形成了一个单相，因为没有低能多相替代品存在于如此接近伞式化学计量的化学计量中。结构中的阳离子严重不协调，但可以通过用CuII取代MoVI来去除结构中的氧。La2Cu2O5出现前，La4Cu3+xMo1−xO12−2x在0.0≤x≤0.12时形成单相。这种结构上不利的取代是可以容忍的，因为它使组成物更接近于伞式化学计量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Inorganic Materials

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