An electron diffraction study of the type II Bi2−xNbxO3+x solid solution

The body centered cubic (a& &4.26 A s s ) -type solid solution (ss ) phase (1؊x)Bi 2 O 3 • xCaO (& &0.50 < x <& &0.60 at & &820°°C) was investigated by electron diffraction. Instead of finding evidence for additional Bragg reflections at G$ $a\* as previously assumed attempting to interpret powder n

It is shown by X-ray diffraction that on decomposition of a (3-W alloy in the vicinity of the chemical spinodal the matrix changes continuously in composition, whereas the segregated phase lies close to the equilibrium position. It was also observed that in the initial stages the new phase had the s

The reported wide-range nonstoichiometric Ni 1؉x Te 2 , 04 4 x4 40.83, and Ni 1؉x Se 2 , 0.574 4x4 40.92, CdI 2 /NiAs structure type solid solution 5elds have been carefully reinvestigated via electron and X-ray powder di4raction to search for evidence of Ni/vacancy ordering and superstructure phase

The progress of the solid state acyl shift of 1,2-diglycerides to 1,3-diglyeerides is followed at room temperature in single dipalmitin microcrystals by electron diffraction. The #'form, rather than the a-form of the 1,2-isomer, transforms to the 1,3 product. The #' form packs in the monoclinic para