about
Edge state in graphene ribbons: Nanometer size effect and edge shape dependenceRechargeable batteries with high energy storage activated by in-situ induced fluorination of carbon nanotube cathode.Boosting the power performance of multilayer graphene as lithium-ion battery anode via unconventional doping with in-situ formed Fe nanoparticlesIncommensurate Graphene Foam as a High Capacity Lithium Intercalation AnodeMOF-derived multifractal porous carbon with ultrahigh lithium-ion storage performance.Chemical approaches toward graphene-based nanomaterials and their applications in energy-related areas.Negative electrodes for Na-ion batteries.Structural design of graphene for use in electrochemical energy storage devices.Carbon-Based Materials for Lithium-Ion Batteries, Electrochemical Capacitors, and Their Hybrid Devices.Layer-by-layer assembly of versatile nanoarchitectures with diverse dimensionality: a new perspective for rational construction of multilayer assemblies.Critical Insight into the Relentless Progression Toward Graphene and Graphene-Containing Materials for Lithium-Ion Battery Anodes.Graphene-based electrochemical energy conversion and storage: fuel cells, supercapacitors and lithium ion batteries.Pore-Structure-Optimized CNT-Carbon Nanofibers from Starch for Rechargeable Lithium Batteries.The role of intermolecular polarization for the stability of lithium intercalation compounds of alpha- and beta-perylene.Synergism of Rare Earth Trihydrides and Graphite in Lithium Storage: Evidence of Hydrogen-Enhanced Lithiation.Uniform Yolk-Shell MoS2 @Carbon Microsphere Anodes for High-Performance Lithium-Ion Batteries.Rational synthesis of carbon-coated hollow Ge nanocrystals with enhanced lithium-storage properties.Theory of reactions at electrified interfaces.Hierarchical Tubular Structures Composed of Co3 O4 Hollow Nanoparticles and Carbon Nanotubes for Lithium Storage.Preparation and Electrochemical Properties of Tin-Iron-Carbon Nanocomposite as the Anode of Lithium-Ion Batteries.Growth of linked silicon/carbon nanospheres on copper substrate as integrated electrodes for Li-ion batteries.Rapid synthesis of nitrogen-doped graphene for a lithium ion battery anode with excellent rate performance and super-long cyclic stability.Improving the Performance of Biomass-Derived Carbons in Li-Ion Batteries by Controlling the Lithium Insertion ProcessUnderstanding the Physicoelectrochemical Properties of Carbon Nanotubes: Current State of the ArtEmulsion-templated bicontinuous carbon network electrodes for use in 3D microstructured batteriesSupramolecular Polymerization Promoted In Situ Fabrication of Nitrogen-Doped Porous Graphene Sheets as Anode Materials for Li-Ion BatteriesCarbon nanotubule membranes for electrochemical energy storage and production
P2860
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P2860
description
article publié dans la revue scientifique Science
@fr
im April 1994 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published in Science
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 1994
@uk
name
A mechanism of lithium storage in disordered carbons
@en
A mechanism of lithium storage in disordered carbons
@nl
type
label
A mechanism of lithium storage in disordered carbons
@en
A mechanism of lithium storage in disordered carbons
@nl
prefLabel
A mechanism of lithium storage in disordered carbons
@en
A mechanism of lithium storage in disordered carbons
@nl
P2093
P1433
P1476
A mechanism of lithium storage in disordered carbons
@en
P2093
P356
10.1126/SCIENCE.264.5158.556
P407
P577
1994-04-22T00:00:00Z