Results 91 to 100 of about 19,463 (209)
Electrochemical lithium intercalation in nanosized manganese oxides
, 2006 International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanganate by lithium iodide in aqueous medium (MnOx-I) and by decomposition of manganese carbonate at moderate temperature (MnOx-C).
Bacia, Maria +6 more
core +1 more source
, 2009 Nanostructured materials lie at the heart of the fundamental advances in efficient energy storage/conversion in which surface process and transport kinetics play determining roles.
G.Z. Cao +5 more
core +1 more source
Review—Metallic Lithium and the Reduction of Actinide Oxides
, 2017 Extensive research and process development has been conducted on the electrolytic reduction of actinide oxides inmolten LiCl-Li2O. It is now accepted that the reduction of these metal oxides occurs via two separate reduction mechanisms: direct electro ...
Williamson, Mark A. +7 more
core +1 more source
Improving lithium polysulfides redox with spinel oxides for lithium-sulfur batteries
, 2020 Lithium-sulfur (Li-S) batteries have been recognized as potential candidates for next-generation rechargeable cells because of their high energy density.
Shen, Chen
core
Lithium-intercalation oxides for rechargeable batteries
, 1998 Since the introduction of the LixC/LiCoO2 cell, rechargeable lithium batteries have become the technology of choice for applications where volume or weight are a consideration (e.g., laptop computers and cell phones).
Ceder, Gerbrand +2 more
core +1 more source
Iron doped lithium cobalt oxides as lithium intercalating cathode materials
, 2001 Layered transition metal oxides of the formula LiMO 2 have good lithium insertion properties for which reason LiCoO 2 and LiNiO2 have been exploited in practical lithium rocking chair batteries.
Premkumar, T. +7 more
core
Atomic layer deposition of metal oxides for applications in lithium-ion and lithium metal batteries
, 2021 Lithium-ion batteries (LIBs) are widely used for energy-storage purposes. To meet the increasing energy and performance expectations for electronic devices and emerging electric vehicles, next-generation LIBs with improved safety, energy density and ...
Zhao, Bo
core
New lithium-ion conducting perovskite oxides related to (Li, La)TiO3
, 2001 We describe the synthesis and lithium-ion conductivity of new perovskite-related oxides of the formulas, LiCa(1.65)square 0.35Ti1.3B1.7O9 (B = Nb, Ta) (I, II), LiSr2Ti2.5W0.5O9 (III) and LiSr(1.65)square 0.35Ti2.15W0.85O9 (IV).
Gopalakrishnan, J +2 more
core
Materiais para cátodos de baterias secundárias de lítio
Química Nova, 2002 In this work, cathodes employed in secondary lithium batteries are reviewed. These cathodes have great technologic and scientific importance, specifically, materials for cathodes as electronic conductor polymers (ECP), transition metal oxides (TMO) and ...
Varela Hamilton +3 more
doaj
Structurally robust lithium-rich layered oxides for high-energy and long-lasting cathodes
Nature CommunicationsO2-type lithium-rich layered oxides, known for mitigating irreversible transition metal migration and voltage decay, provide suitable framework for exploring the inherent properties of oxygen redox.
Ho-Young Jang +14 more
doaj +1 more source