Book Chapter10.1016/S0065-2792(08)60179-X
Mixed Valence Chemistry-A Survey and Classification
Melvin B. Robin,Peter Day +1 more
2.5K
TL;DR: In this article, a review is concerned with the neglected class of inorganic compounds, which contain ions of the same element in two different formal states of oxidation, and a number of references cite that many individual examples of this class have been studied, yet they have very rarely been treated as a class, and there has never before, to our knowledge, been a systematic attempt to classify their properties in terms of their electronic and molecular structures.
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Abstract: Publisher Summary This review is concerned with the neglected class of inorganic compounds, which contain ions of the same element in two different formal states of oxidation. Although the number of references cited in our review show that many individual examples of this class have been studied, yet they have very rarely been treated as a class, and there has never before, to our knowledge, been a systematic attempt to classify their properties in terms of their electronic and molecular structures. In the past, systems containing an element in two different states of oxidation have gone by various names, the terms “mixed valence,” nonintegral valence,” “mixed oxidation,” “oscillating valency,” and “controlled valency” being used interchangeably. Actually, none of these is completely accurate or all-embracing, but in our hope to avoid the introduction of yet another definition, we have somewhat arbitrarily adopted the phrase “mixed valence” for the description of these systems. The concept of resonance among various valence bond structures is one of the cornerstones of modern organic chemistry.
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References
Über heterotype Mischphasen bei Seltenerdoxyden. II. Die Oxydsysteme des Cers und des Praseodyms
Georg Brauer,H. Gradinger +1 more
TL;DR: In this paper, the Phasenverhaltnisse der Ceroxyde zwischen CeO2 und Ce2O3 and der Praseodymoxyde werden durch Rontgenuntersuchungen bestimmt.
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Electrical Conduction in Nonstoichiometric α‐Nb2O5
R. F. Janninck,D. H. Whitmore +1 more
TL;DR: In this paper, the electrical conductivity of nonstoichiometric α-Nb2O5-x was measured as a function of both the composition over the range 0.001≤x≤0.137 and the temperature from 77° to 1270°K. The conductivity data were interpreted in terms of an oxygen ion vacancy defect capable of trapping two electrons which can be thermally excited into a narrow 4D conduction band.
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