Carpy-Galy phases AnBnO3n+2 = ABOx : Overview, properties, special and hypothetical systems, and melt-grown synthesis of A- and O-deficient n = 5 types such as Sr19Nb19WO66 and Sr17Ca2Nb19WO64 and n = 6 type Ln6Ti4Fe2O20 and Ca6Nb5FeO20
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Subjectoxides; oxides of the type AnBnO3n+2; Carpy-Galy phases; Carpy-Galy phases AnBnO3n+2; AnBnO3n+2; melt-grown oxides; floating zone melting; mirror furnace; floating zone melting furnace; Cyberstar mirror furnace; perovskite-related; perovskite-related layered crystal structure; perovskite-related layered oxides; niobates; titanates; ABOx; Pr6Ti4Fe2O20; Nd6Ti4Fe2O20; Sm6Ti4Fe2O20; La6Ti4Fe2O20; Ca6Nb5FeO20; Sr19Nb19WO66; Sr17Ca2Nb19WO64; Sr5Nb5O17; quasi-1D metal; quasi-one-dimensional metal; Sr5Nb5O16; Schückel-Müller-Buschbaum phase Sr5Nb5O16; SQUID magnetometer; magnetic moment; magnetic susceptibility; thermogravimetry; thermogravimetric analysis; ferroelectric; multiferroic; materials science; solid state chemistry; oxygen content; non-stoichiometric; oxygen-deficient; centrosymmetric; non-centrosymmetric; synthesis of oxides; crystalline oxides; crystal structure; crystal growth; polycrystalline sintered rods; preparation of polycrystalline sintered rods; pictures of melt-grown oxides; excitonic superconductivity; solid state physics; photoinduced properties; optical spectroscopy; angle-resolved photoemission spectroscopy; photoinduced; photoinduced phase transition; photoinduced metal-insulator transition; resistivity; electrical resistivity; LaTiOx; SrNbOx; reduced niobates; mixed-valence niobates; SrNbO3.4; SrNbO3.2; Sr2RuO4; Sr20Nb20O68; Sr20Nb20O64; videos from floating zone melting; videos from melt-grown synthesis; transmission electron microscopy; micro patterning; nano patterning; micro patterning by an electron beam; nano patterning by an electron beam; NaWOx; perovskite; perovskite structure; perovskite-related structure; perovskite-related crystal structure; mixed valence; pyrochlore; cubic pyrochlore; pyrochlore structure; polar metal; ferroelectric metal; magnetoelectric; powder x-ray diffraction; lattice parameters; powder x-ray diffraction pattern; thin films; heterostructures
Organisational unit03903 - Spaldin, Nicola A. / Spaldin, Nicola A.
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