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Chemical intergrowth

Cell Chemistry. Work on the mechanism of the carbon—2inc cell has been summari2ed (4), but the dynamics of this system are not entirely understood. The electrochemical behavior of electrolytic (FMD), chemical (CMD), and natural (NMD) manganese dioxide is slightly different. Battery-grade NMD is most commonly in the form of the mineral nsutite [12032-72-3] xMn02, which is a stmctural intergrowth of the minerals... [Pg.521]

The layer-type structures and chemical nature of the constituents of the bismuth and thallium-based cuprate superconductors - notably the lone-pair stereochemistry of Bis+, variable valence of copper, and considerable exchange among some of the cation sites - combine to make structural non-ideality, nonstoichiometry, and phase intergrowth the rule rather that the exception in these families of materials. These features, as well as the probable metastability of the phases (and possibly all high-temperature oxide superconductors), also contribute to the difficulties typically encountered in preparing single-phase samples with reproducible properties and compositions. [Pg.263]

Interpenetration. A term used to describe the mutual intergrowth of two or more networks in a structure where the networks are physically but not chemically linked. [Pg.596]

In many clinkers, the ferrite phase is closely mixed with aluminate due to a similarity in cell parameters, oriented intergrowth can occur (MIS). The close admixture often renders X-ray microanalysis difficult or unreliable. For ordinary Portland cement clinkers, the compositions found in dilferent laboratories are nevertheless remarkably consistent. Table 1.2 includes an average value based on the results of investigations using X-ray microanalysis (H8,K1,B2,U1,H3,B4) or chemical analysis of separated material (Yl). Table 1.3 includes suggested site occupancies corresponding to these data. [Pg.30]

There is a need for far more experimental studies on the formation and reactivity of these intergrowth phases, as to date there is a paucity of reliable information. However, the ease with which CS planes and the conduction planes in j8-alumina are able to grow or shrink suggest that they will prove to be the seat of an enhanced chemical reactivity. This aspect of these phases has been hardly studied at all to the present time and further experiments would be of considerable interest. [Pg.172]

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Chemically distinct intergrowths observed by HRTEM

Intergrowth

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