Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Anion-Deficient Fluorite Structures

The final anion-deficient fluorite structure type material to mention is 8-Bi203. The formula of this phase makes it surprising that a fluorite structure form exists, but such a structure occurs at high temperatures. The resulting phase is an excellent O2- ion conductor with many potential applications. Unfortunately, the high-temperature form is not maintained when the compound is cooled to room temperature. However, fluorite structure anion-deficient phases of the same type can be prepared by reaction with many other oxides, and these are stable at room temperature. The majority of these materials have a modulated anion substructure (Section... [Pg.160]

The Kang-Eyring system interpreting fluorite related anion deficient structures has recently been extended to a wide range of fluorite related structures with vacancies in both anion and cation sites [28, 29]. [Pg.72]

The parent structure of the anion-deficient fluorite structure phases is the cubic fluorite structure (Fig. 4.7). As in the case of the anion-excess fluorite-related phases, diffraction patterns from typical samples reveals that the defect structure is complex, and the true defect structure is still far from resolved for even the most studied materials. For example, in one of the best known of these, yttria-stabilized zirconia, early studies were interpreted as suggesting that the anions around vacancies were displaced along < 111 > to form local clusters, rather as in the Willis 2 2 2 cluster described in the previous section, Recently, the structure has been described in terms of anion modulation (Section 4.10). In addition, simulations indicate that oxygen vacancies prefer to be located as second nearest neighbors to Y3+ dopant ions, to form triangular clusters (Fig. 4.11). Note that these suggestions are not... [Pg.159]

The structure of pyrochlore is considered to be an anion deficient derivative of the fluorite structure type. Ca atoms are in eight-fold coordination, while Nb atoms are in six-fold coordination. Steady-state luminescence spectra of pyrochlore revealed emission of REE, such as trivalent Dy and Nd (Gorobets and Rogojine 2001). The natural pyrochlore in our study consisted of four... [Pg.70]

Anion-deficient fluorite oxides are also present, for example, U02- c, Ce02-x The presence of anion vacancies in reduced fluorites has been confirmed by diffraction studies. In reduced ceria for example, some well-ordered phases has been reported (Sharma et al 1999). The defective compounds show very high anion mobilities and are useful as conductors and as catalytic materials as will be described later. However, the structures of many anion-deficient fluorite oxides remain unknown because of the shear complexity of the disordered phases. There are, therefore, many opportunities for EM studies to obtain a better understanding of the defect structures and properties of these complex materials which are used in catalysis. [Pg.27]

Apart from aimealing times, the structures described above are also sensitive to the preparation temperature. This is well illustrated by phases in the Bi203-Te02 system. At high temperatures, a nonstoichiometric anion-deficient fluorite structure seems to be stable between the composition limits Bi2Te05 and Bi2Tc207, (MO1.6667-MO1.7500). This broad... [Pg.1090]

This approach makes it possible to describe several structural features of anion-deficient fluorite-related binary oxides of Ce, Pr and Tb but it is fundamentally descriptive rather than predictive. This limit was pointed out by Khang and Eyring who recently built a model that is also capable of predicting the structural features of unknown phases in the series... [Pg.40]

Other defect fluorite structures with intermediate degrees of anion deficiency are noted elsewhere Pr Oj 1 (p. 449) and Na3UF7 (p. 995). [Pg.208]

Numerous other anion-deficient fluorite-structured oxides have been investigated,... [Pg.28]

There has been a strong effort to rationalise and elucidate a structural principle which will account for all the anion-deficient, fluorite-related, mixed-valent binary oxides of cerium, praseodymium and terbium. This is a key step not only for the solid-state chemistry of these materials but also for a large class of fluorite-related materials involved in applications such as fast oxygen conductors and as catalysts. The two main theoretical approaches to the problem were developed by Martin" and by Kang and Eyring, and will be illustrated in the following sections. [Pg.28]

The MXz+x phases contain interstitial anions. As with the anion-deficient phases, these interstitials are not random point defects, but ordered or clustered. The earliest cluster geometry to be postulated was the [2 2 2] cluster in U02+, the prototype anion-excess fluorite phase. The cluster is composed of 2 interstitial oxygen atoms displaced along (110), two interstitial oxygen atoms displaced along (111) in UO2+J (Figure 5). Other cluster geometries have also been proposed in this oxide, and the defect structure of this well studied phase is still not completely resolved. [Pg.1083]

Structure and Structural Defects in Anion-Deficient Fluorite-Related Materials High-Resolution Electron Microscopy, L. Eyring, High Temp. ScL, 20,183-201 (1985). [Pg.549]

See other pages where Anion-Deficient Fluorite Structures is mentioned: [Pg.160]    [Pg.362]    [Pg.157]    [Pg.159]    [Pg.91]    [Pg.93]    [Pg.22]    [Pg.26]    [Pg.255]    [Pg.134]    [Pg.447]    [Pg.110]    [Pg.1084]    [Pg.1814]    [Pg.3425]    [Pg.334]    [Pg.208]    [Pg.501]    [Pg.26]    [Pg.29]    [Pg.34]    [Pg.3]    [Pg.1083]    [Pg.1813]    [Pg.3424]    [Pg.59]    [Pg.67]    [Pg.395]    [Pg.125]    [Pg.511]    [Pg.41]    [Pg.51]    [Pg.387]    [Pg.91]   
See also in sourсe #XX -- [ Pg.157 , Pg.158 , Pg.159 , Pg.160 ]



SEARCH



Anion-Deficient Fluorites

Anionic structures

Fluorite

Structural deficiency

© 2024 chempedia.info