S. B. Artemkina scite author profile

Classical Li-ion battery technology is based on the insertion of lithium ions into cathode materials involving metal (cationic) redox reactions. However, this vision is now being reconsidered, as many new-generation electrode materials with enhanced reversible capacities operate through combined cationic and anionic (non-metal) reversible redox processes or even exclusively through anionic redox transformations. Anionic participation in the redox reactions is observed in materials with more pronounced covalency, which is less typical for oxides, but quite common for phosphides or chalcogenides. In this Concept, we would like to draw the reader's attention to this new idea, especially, as it applies to transition-metal polychalcogenides, such as FeS , VS , TiS , NbS , TiS , MoS , etc., in which the key role is played by the (S-S) /2 S redox reaction. The exploration and better understanding of the anion-driven chemistry is important for designing advanced materials for battery and other energy-related applications.

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A Novel Framework Type for Inorganic Clusters with Cyanide Ligands: Crystal Structures of Cs2Mn3[Re6Se8(CN)6]2⋅15 H2O and (H3O)2Co3[Re6Se8(CN)6]2⋅14.5 H2O

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Вировец

Sokolov

et al. 1998

Angewandte Chemie International Edition

175

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Large cavities occupied by cations and water molecules are part of the polymeric inorganic cluster structure made up of [Re6Se8(CN)6]4− and M2+ ions (M=Mn, Co; see structure on the right). Remarkably, the water molecules play an essential role in the stabilization of the structure: When the cluster is heated to 80–160°C, water is lost irreversibly, and a sharp change in structure is observed.

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Extended framework materials incorporating cyanide cluster complexes: structure of the first 3D architecture accommodating organic molecules

et al. 2001

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Colloidal solutions of niobium trisulfide and niobium triselenide

et al. 2014

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S. B. Artemkina

Anionic Redox Chemistry in Polysulfide Electrode Materials for Rechargeable Batteries

A Novel Framework Type for Inorganic Clusters with Cyanide Ligands: Crystal Structures of Cs2Mn3[Re6Se8(CN)6]2⋅15 H2O and (H3O)2Co3[Re6Se8(CN)6]2⋅14.5 H2O

Extended framework materials incorporating cyanide cluster complexes: structure of the first 3D architecture accommodating organic molecules

Colloidal solutions of niobium trisulfide and niobium triselenide

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