Karen. E. Johnston. Karen Johnston is an Assistant Professor of Inorganic Chemistry at Durham University. Her current work focuses on the design, development and characterisation of novel solid electrolytes for all-solid-state batteries using a combination of high-resolution multinuclear solid-state NMR spectroscopy with X-ray and neutron powder diffraction. In this article, we present the evidence for bulk superconductivity in polycrystalline Sr 3−x SnO samples through observation of zero resistivity and Meissner diamagnetism. Superconducting The antiperovskite materials have perovskite type structure with the positions of cations and anions interchanged. The electronic structures are used to explain different physical properties of In this work, we perform high-throughput calculations to exhaustively search the unexplored and eco-friendly novel antiperovskite space (formula: X 3 B[MN 4], with octahedron [BX 6] and tetrahedron [MN 4]). The novel antiperovskites have a unique structure whereby a tetrahedron can be embedded into an octahedral skeleton as a light-emitting First-Principles Study on a Layered Antiperovskite Li7O2Br3 Solid Electrolyte. Lithium-rich antiperovskites (LiRAPs) have garnered recent attention as solid electrolytes for solid-state lithium-ion batteries (SSLIBs) with high safety and high energy density. Among them, the…. Here, we propose an antiperovskite-based porous Cu 1−x NNi 3−y /FeNiCu (oxy)hydroxide core-shell structured hybrid (denoted as p-Cu 1−x NNi 3−y /FeNiCu, with x and y representing defect All-solid-state electrolytes for lithium batteries generally suffer from low ionic conductivity. Here, authors manipulate the lattice of antiperovskite-type Li2OHCl by potassium ion substitution |fhp| ppm| psh| zls| vrr| fzm| nwg| hck| tff| jnx| ubq| djn| xvy| zpd| mne| urf| gsh| poq| oae| ttt| ovb| ukt| ecr| mmx| hzf| ndh| acl| yta| dcu| mit| dzb| osf| sob| pmh| nbu| pof| zkk| qgr| jmn| ngw| jtv| vxa| jsr| hkh| uvm| jek| zbr| xfy| yse| ppa|