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This book of Molecules is dedicated to Professor John B. Goodenough (born July 25, 1922, Jena, Germany), an American physicist, who won the 2019 Nobel Prize for Chemistry for his work on developing lithium-ion batteries.
Research & information: general --- Chemistry --- Physical chemistry --- structure --- bonding --- physical properties --- collective or localized electrons --- exchange integral --- p-magnetism --- boron sub-oxide --- interstitial atoms --- DFT --- DOS --- ELF --- charge density plots --- bifunctional catalyst --- hybrid catalyst --- oxygen reduction reaction --- oxygen evolution reaction --- four-electron pathway --- lithium ionic conductor --- perovskite structure --- solid electrolyte --- oxide --- lithium-sulfur batteries --- tungsten oxide nanowire --- interlayer --- thiosulfate mediator --- Keywords: spin exchange --- magnetic orbitals --- ligand p-orbital tails --- M–L–M exchange --- M–L…L–M exchange --- α-CuV2O6 --- LiCuVO4 --- (CuCl)LaNb2O7 --- Cu3(CO3)2(OH)2 --- spin Hamiltonian --- magnetism --- energy-mapping analysis --- four-state method --- Green’s function method --- magnetic ground state --- spin exchange --- magnetic anisotropy --- molecular anion --- MPS3 --- qualitative rules --- batteries --- positive electrode --- vanadium phosphates --- covalent vanadyl bond --- mixed anion --- density functional theory --- quantum Monte Carlo --- fast Li+ ion conductor --- Li-ion battery --- spinel --- solid-state battery --- cathode-electrolyte interface --- indigo carmine --- solid polymer electrolyte --- solid state battery --- LMP® technology --- organic battery --- layered oxide cathodes --- alkali–alkali interactions --- electronic structure --- Li diffusion --- defect engineering --- perovskite electrolyte --- lithium-ion battery --- migration pathway --- anisotropic response --- cathode --- polyanion --- high-voltage --- n/a --- M-L-M exchange --- M-L...L-M exchange --- Green's function method --- alkali-alkali interactions
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This book of Molecules is dedicated to Professor John B. Goodenough (born July 25, 1922, Jena, Germany), an American physicist, who won the 2019 Nobel Prize for Chemistry for his work on developing lithium-ion batteries.
structure --- bonding --- physical properties --- collective or localized electrons --- exchange integral --- p-magnetism --- boron sub-oxide --- interstitial atoms --- DFT --- DOS --- ELF --- charge density plots --- bifunctional catalyst --- hybrid catalyst --- oxygen reduction reaction --- oxygen evolution reaction --- four-electron pathway --- lithium ionic conductor --- perovskite structure --- solid electrolyte --- oxide --- lithium-sulfur batteries --- tungsten oxide nanowire --- interlayer --- thiosulfate mediator --- Keywords: spin exchange --- magnetic orbitals --- ligand p-orbital tails --- M–L–M exchange --- M–L…L–M exchange --- α-CuV2O6 --- LiCuVO4 --- (CuCl)LaNb2O7 --- Cu3(CO3)2(OH)2 --- spin Hamiltonian --- magnetism --- energy-mapping analysis --- four-state method --- Green’s function method --- magnetic ground state --- spin exchange --- magnetic anisotropy --- molecular anion --- MPS3 --- qualitative rules --- batteries --- positive electrode --- vanadium phosphates --- covalent vanadyl bond --- mixed anion --- density functional theory --- quantum Monte Carlo --- fast Li+ ion conductor --- Li-ion battery --- spinel --- solid-state battery --- cathode-electrolyte interface --- indigo carmine --- solid polymer electrolyte --- solid state battery --- LMP® technology --- organic battery --- layered oxide cathodes --- alkali–alkali interactions --- electronic structure --- Li diffusion --- defect engineering --- perovskite electrolyte --- lithium-ion battery --- migration pathway --- anisotropic response --- cathode --- polyanion --- high-voltage --- n/a --- M-L-M exchange --- M-L...L-M exchange --- Green's function method --- alkali-alkali interactions
Choose an application
This book of Molecules is dedicated to Professor John B. Goodenough (born July 25, 1922, Jena, Germany), an American physicist, who won the 2019 Nobel Prize for Chemistry for his work on developing lithium-ion batteries.
Research & information: general --- Chemistry --- Physical chemistry --- structure --- bonding --- physical properties --- collective or localized electrons --- exchange integral --- p-magnetism --- boron sub-oxide --- interstitial atoms --- DFT --- DOS --- ELF --- charge density plots --- bifunctional catalyst --- hybrid catalyst --- oxygen reduction reaction --- oxygen evolution reaction --- four-electron pathway --- lithium ionic conductor --- perovskite structure --- solid electrolyte --- oxide --- lithium-sulfur batteries --- tungsten oxide nanowire --- interlayer --- thiosulfate mediator --- Keywords: spin exchange --- magnetic orbitals --- ligand p-orbital tails --- M-L-M exchange --- M-L...L-M exchange --- α-CuV2O6 --- LiCuVO4 --- (CuCl)LaNb2O7 --- Cu3(CO3)2(OH)2 --- spin Hamiltonian --- magnetism --- energy-mapping analysis --- four-state method --- Green's function method --- magnetic ground state --- spin exchange --- magnetic anisotropy --- molecular anion --- MPS3 --- qualitative rules --- batteries --- positive electrode --- vanadium phosphates --- covalent vanadyl bond --- mixed anion --- density functional theory --- quantum Monte Carlo --- fast Li+ ion conductor --- Li-ion battery --- spinel --- solid-state battery --- cathode-electrolyte interface --- indigo carmine --- solid polymer electrolyte --- solid state battery --- LMP® technology --- organic battery --- layered oxide cathodes --- alkali-alkali interactions --- electronic structure --- Li diffusion --- defect engineering --- perovskite electrolyte --- lithium-ion battery --- migration pathway --- anisotropic response --- cathode --- polyanion --- high-voltage --- structure --- bonding --- physical properties --- collective or localized electrons --- exchange integral --- p-magnetism --- boron sub-oxide --- interstitial atoms --- DFT --- DOS --- ELF --- charge density plots --- bifunctional catalyst --- hybrid catalyst --- oxygen reduction reaction --- oxygen evolution reaction --- four-electron pathway --- lithium ionic conductor --- perovskite structure --- solid electrolyte --- oxide --- lithium-sulfur batteries --- tungsten oxide nanowire --- interlayer --- thiosulfate mediator --- Keywords: spin exchange --- magnetic orbitals --- ligand p-orbital tails --- M-L-M exchange --- M-L...L-M exchange --- α-CuV2O6 --- LiCuVO4 --- (CuCl)LaNb2O7 --- Cu3(CO3)2(OH)2 --- spin Hamiltonian --- magnetism --- energy-mapping analysis --- four-state method --- Green's function method --- magnetic ground state --- spin exchange --- magnetic anisotropy --- molecular anion --- MPS3 --- qualitative rules --- batteries --- positive electrode --- vanadium phosphates --- covalent vanadyl bond --- mixed anion --- density functional theory --- quantum Monte Carlo --- fast Li+ ion conductor --- Li-ion battery --- spinel --- solid-state battery --- cathode-electrolyte interface --- indigo carmine --- solid polymer electrolyte --- solid state battery --- LMP® technology --- organic battery --- layered oxide cathodes --- alkali-alkali interactions --- electronic structure --- Li diffusion --- defect engineering --- perovskite electrolyte --- lithium-ion battery --- migration pathway --- anisotropic response --- cathode --- polyanion --- high-voltage
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