about
Porous 3D graphene-based bulk materials with exceptional high surface area and excellent conductivity for supercapacitorsElectrodeposition of porous graphene networks on nickel foams as supercapacitor electrodes with high capacitance and remarkable cyclic stability.3D Interdigital Au/MnO2 /Au Stacked Hybrid Electrodes for On-Chip Microsupercapacitors.Cobalt monoxide-doped porous graphitic carbon microspheres for supercapacitor applicationTLM-PSD model for optimization of energy and power density of vertically aligned carbon nanotube supercapacitorNitrogen-doped porous carbon monoliths from polyacrylonitrile (PAN) and carbon nanotubes as electrodes for supercapacitorsMultifunctional Carbon Nanostructures for Advanced Energy Storage Applications.Synthesis and Characterisation of Reduced Graphene Oxide/Bismuth Composite for Electrodes in Electrochemical Energy Storage Devices.The road for nanomaterials industry: a review of carbon nanotube production, post-treatment, and bulk applications for composites and energy storage.Inorganic nanostructured materials for high performance electrochemical supercapacitors.Carbon-Based Materials for Lithium-Ion Batteries, Electrochemical Capacitors, and Their Hybrid Devices.Asymmetric Supercapacitor Electrodes and Devices.Unconventional supercapacitors from nanocarbon-based electrode materials to device configurations.Carbon nanotubes and graphene towards soft electronics.Energy storage on ultrahigh surface area activated carbon fibers derived from PMIA.Large area few-layer graphene with scalable preparation from waste biomass for high-performance supercapacitor.Electrochemical performance of hierarchical porous carbon materials obtained from the infiltration of lignin into zeolite templates.Graphene oxide-dispersed pristine CNTs support for MnO2 nanorods as high performance supercapacitor electrodes.Hybrid ternary rice paper-manganese oxide-carbon nanotube nanocomposites for flexible supercapacitors.Carbonaceous electrode materials for supercapacitors.Engineering the Pores of Biomass-Derived Carbon: Insights for Achieving Ultrahigh Stability at High Power in High-Energy Supercapacitors.Sulfur-infiltrated porous carbon microspheres with controllable multi-modal pore size distribution for high energy lithium-sulfur batteries.A Study of Carbon Nanofibers and Active Carbon as Symmetric Supercapacitor in Aqueous Electrolyte: A Comparative Study.Inherent N,O-containing carbon frameworks as electrode materials for high-performance supercapacitors.Synthesis of garlic skin-derived 3D hierarchical porous carbon for high-performance supercapacitors.Synergistic fusion of vertical graphene nanosheets and carbon nanotubes for high-performance supercapacitor electrodes.Anti-solvent derived non-stacked reduced graphene oxide for high performance supercapacitors.MOF-derived binary mixed metal/metal oxide @carbon nanoporous materials and their novel supercapacitive performances.The rise of lithium–selenium batteriesCarbon–sulfur composites for Li–S batteries: status and prospectsA Continuous Carbon Nitride Polyhedron Assembly for High-Performance Flexible SupercapacitorsElectroadsorption of Arsenic from Natural Water in Granular Activated CarbonHighly Stable Laser-Scribed Flexible Planar Microsupercapacitor Using Mushroom Derived Carbon Electrodes
P2860
Q34332038-A843918D-5D6A-4F5E-8FC8-626FCBADF81DQ35825467-580BBDCB-BB3B-4EA6-A7DB-22961DF2A5EEQ35999843-5DF65FD3-4A40-4FB5-9364-9CFF61A5E13AQ37226457-533143D4-6EA7-4DC5-9083-9B6472579653Q37246260-A70FC604-D060-4593-AA4D-658A356CD764Q37578921-564EBB0D-0D9C-4EB4-917B-B77A83D71F31Q37646403-E079FB0C-11A7-4F4E-B53A-FA4791CF5A68Q37717990-9E5191F0-B80E-48E7-B6E1-C488A17889F5Q38098486-5D11E521-AD43-47BC-A058-C42D07177C2AQ38175287-5E667D14-618C-4E48-B046-4D1418778709Q38542444-2AFD5F87-E0CA-4E88-A88D-2F027F5D7BBAQ38752441-A86106B8-1626-41F4-979B-AECF37715556Q38855350-E9A4B40C-ADB3-4751-BB23-76505D43FFFDQ41463592-09C5ABF6-B6E3-425F-A15B-CF9A41C26D4DQ43535809-D15C967B-A52E-48B8-AF96-A9268B4D595FQ43891078-2A968644-86C3-4F7F-94CF-F96AC328F851Q44007194-B07F0B69-0389-419D-AF80-2E64283A60FCQ44144899-801590EA-5391-4888-A403-39E7B5439605Q44228317-95289D1B-3403-49BD-BB86-B75E4DABD94FQ45138833-DDFAE481-106E-4E9A-9B44-004D79CE98ECQ46375101-D201B66B-9BFA-4E43-A790-36CF74E5377DQ47198106-1688E1F3-7681-4317-8B13-B1ADA88D72DDQ47210606-2A6FDBA3-950D-4002-8FA5-4AF7C01F0EBBQ48987222-3B3C7DFC-3831-4BC3-BEB6-49111CD2B938Q50042127-C12694F8-A4C0-474C-BB1A-66866B5359DBQ50456334-A7EAF0BF-C016-44D1-A06B-659B343D1AB9Q50895218-B3BE917F-8326-456A-B353-8F7BC94E6F51Q53076777-DF28E3B5-4815-4731-847D-828EC131EF34Q55885089-FC0195A3-9675-465B-AF04-FF0E4998B7F7Q57395237-5E433DB2-848C-46FE-870F-B9A0BB7F7D06Q57618320-B14F8CD9-9DDE-46F4-8625-79EB9D3F5FFBQ57901199-F27BD6F3-1851-4CC8-854D-6E22732FAA29Q58227281-AFEB95AF-2908-4A13-8708-DBF45A49F06C
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Carbon-based electrochemical capacitors.
@en
Carbon-based electrochemical capacitors.
@nl
type
label
Carbon-based electrochemical capacitors.
@en
Carbon-based electrochemical capacitors.
@nl
prefLabel
Carbon-based electrochemical capacitors.
@en
Carbon-based electrochemical capacitors.
@nl
P2860
P356
P1433
P1476
Carbon-based electrochemical capacitors.
@en
P2093
Arunabha Ghosh
Young Hee Lee
P2860
P304
P356
10.1002/CSSC.201100645
P577
2012-03-02T00:00:00Z