Crystallographic Shear Structures as a Route to Anion‐Deficient Perovskites

Abstract: Because of the technological importance of perovskite-based oxides, numerous pathways towards new structures have been developed, including ordering at the A and/or B cation sites of the perovskite (ABO 3 ) structure, vacancy ordering at the anion site, the intergrowth of perovskite and related structures, and the formation of hexagonal perovskite polytypes. However, it has been generally accepted that crystallographic shear (CS) structures cannot be realized in perovskites.[1] CS planes commonly occur in anio… Show more

“…Pb 2 Fe 2 O 5 is expected to be an anion deficient perovskite of the brownmillerite type. However, its structure has not yet been determined because it has a large variety of crystallographic shear 14 . In this paper we propose the synthesis of Pb 2 Fe 2 O 5 obtained by a very simple method, the thermal oxidative decomposition of Pb 2 [Fe(CN) 6 ].4H 2 O at low temperature.…”

SYNTHESIS OF Pb2Fe2O5 BY THERMAL DECOMPOSITION OF Pb2[Fe(CN)6].4H2O

“…Pb 2 Fe 2 O 5 is expected to be an anion deficient perovskite of the brownmillerite type. However, its structure has not yet been determined because it has a large variety of crystallographic shear 14 . In this paper we propose the synthesis of Pb 2 Fe 2 O 5 obtained by a very simple method, the thermal oxidative decomposition of Pb 2 [Fe(CN) 6 ].4H 2 O at low temperature.…”

SYNTHESIS OF Pb2Fe2O5 BY THERMAL DECOMPOSITION OF Pb2[Fe(CN)6].4H2O

“…The concept of crystallographic shear planes in perovskites was elaborated in detail based on transmission electron microscopy investigations of Fe-containing perovskites [5][6][7]. Different orientations of the 1/2[110](h0l) p CS planes with respect to the perovskite subcell and a different thickness of the perovskite module between two consecutive CS planes, give rise to a homologous series (Pb,A) 4p + 3q B 4(p + q) O 10p + 9q (A¼Pb, Ba, Sr, B¼Fe, Mn), where p and q are related to the (h0l) indices of the CS planes [8][9][10][11]. The shear operation changes the connectivity scheme of the metal-oxygen polyhedra, replacing corner-sharing BO 6 octahedra by edgesharing BO 5 distorted tetragonal pyramids (Fig.…”

New perovskite-based manganite Pb2Mn2O5

“…[ 38,43 ] While early work on CSS focused on binary oxide materials, more recent work has explored CSS in ternary, anion-defi cient perovskites [ 42,[44][45][46][47] and others have gone on to extend the idea to cation-excess systems such as the RP homologous series. [48][49][50] In a similar spirit, it is possible to discuss Sr 2 Ti 7 O 14 within the confi nes of CSS.…”

A Novel, Layered Phase in Ti‐Rich SrTiO₃ Epitaxial Thin Films