Sodium-ion diffusion mechanisms in the low cost high voltage cathode material Na2+δFe2−δ/2(SO4)3
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Design of fast ion conducting cathode materials for grid-scale sodium-ion batteries.From a 3D hollow hexahedron to 2D hierarchical nanosheets: controllable synthesis of biochemistry-enabled Na7V3(P2O7)4/C composites for high-potential and long-life sodium ion batteries.First exploration of freestanding and flexible Na2+2xFe2-x(SO4)3@porous carbon nanofiber hybrid films with superior sodium intercalation for sodium ion batteries.Recent Progress in Electrode Materials for Sodium-Ion BatteriesNa3+xMxP1−xS4 (M = Ge4+, Ti4+, Sn4+) enables high rate all-solid-state Na-ion batteries Na2+2δFe2−δ(SO4)3|Na3+xMxP1−xS4|Na2Ti3O7Stability and ionic mobility in argyrodite-related lithium-ion solid electrolytes
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Sodium-ion diffusion mechanisms in the low cost high voltage cathode material Na2+δFe2−δ/2(SO4)3
description
im Januar 2015 veröffentlichter wissenschaftlicher Artikel
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scientific article published on 11 March 2015
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wetenschappelijk artikel
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наукова стаття, опублікована у 2015
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name
Sodium-ion diffusion mechanism ...... cathode material Na2+δFe2−δ/2
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Sodium-ion diffusion mechanism ...... de material Na2+δFe2−δ/2(SO4)3
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type
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Sodium-ion diffusion mechanism ...... cathode material Na2+δFe2−δ/2
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Sodium-ion diffusion mechanism ...... de material Na2+δFe2−δ/2(SO4)3
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prefLabel
Sodium-ion diffusion mechanism ...... cathode material Na2+δFe2−δ/2
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Sodium-ion diffusion mechanism ...... de material Na2+δFe2−δ/2(SO4)3
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P2860
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P1476
Sodium-ion diffusion mechanism ...... aterial Na(2+δ)Fe(2-δ/2)(SO4)3
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P2093
P2860
P304
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10.1039/C5CP00380F
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P577
2015-03-11T00:00:00Z