Topic
Valency
About: Valency is a research topic. Over the lifetime, 1632 publications have been published within this topic receiving 26141 citations.
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TL;DR: In this article, the valency changes of cerium in cerium monochalcogenides CeX (X = O and S) and cerium monopnictides CX (P and As) as functions of pressure have been calculated using the reported data, which considers the difference between the calculated and experimental lattice parameters at each pressure value of the concerned compound.
Abstract: Application of pressure on a material changes its properties due to the modification of the electronic states of the constituent atoms. Various effects of pressure on the properties of solid material have been identified, and valency change of an element in a compound is one of the effects of pressure. This study was aimed at finding the valency change as a function of pressure of some compounds. The valency changes of cerium in cerium monochalcogenides CeX (X = O and S) and cerium monopnictides CeX (X = P and As) as functions of pressure have been calculated utilising the reported data. For calculating the valency change of Ce, the reported experimental pressure-volume relationships of CeO, CeS, CeP and CeAs have been reproduced using the Birch equation of state. The corresponding pressure-volume relationships of these compounds for stable trivalent cerium have also been calculated using the same Birch equation. The change in valency is calculated by a technique, which considers the difference between the calculated and experimental lattice parameters at each pressure value of the concerned compound. Clear effect of pressure on the cerium valency has been obtained for each compound from the present calculation. J.Natn.Sci.Foundation Sri Lanka 2015 43 (4): 313 - 317
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14 Feb 2007TL;DR: In this article, a compound comprising a combination of two crystal phases is described, where the first crystal phase corresponds to the formula: A a E b V c Mo d P e O f H g wherein A is an alkali-metal; E is Te, Sb or Bi; and 0≦a≦3, 0e≦1, 0 ≥e≫2,0 ≥g≦g
Abstract: The invention concerns a compound comprising a combination of two crystal phases. The first crystal phase corresponds to the formula: A a E b V c Mo d P e O f H g wherein A is an alkali-metal; E is Te, Sb or Bi; and 0≦a≦3, 0
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