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Multi-functional reactively-sputtered copper oxide electrodes for supercapacitor and electro-catalyst in direct methanol fuel cell applicationsUltrahigh capacitive performance from both Co(OH)₂/graphene electrode and K₃Fe(CN)₆ electrolyteTwo-dimensional β-MnO₂ nanowire network with enhanced electrochemical capacitanceUltrasonic modification of carbon materials for electrochemical capacitorsNickel Cobalt Sulfide core/shell structure on 3D Graphene for supercapacitor applicationLithographically defined three-dimensional pore-patterned carbon with nitrogen doping for high-performance ultrathin supercapacitor applications.Preparing two-dimensional microporous carbon from Pistachio nutshell with high areal capacitance as supercapacitor materials.Paper-Based Electrodes for Flexible Energy Storage DevicesSolid State Ionics: from Michael Faraday to green energy-the European dimension.From rice bran to high energy density supercapacitors: a new route to control porous structure of 3D carbonPreparation and characterization of aligned carbon nanotube-ruthenium oxide nanocomposites for supercapacitors.Multifunctional 3D nanoarchitectures for energy storage and conversion.Electronic desalting for controlling the ionic environment in droplet-based biosensing platformsInfluence of Particle Size Distribution on the Performance of Ionic Liquid-based Electrochemical Double Layer Capacitors.Effects of Electrodeposition Mode and Deposition Cycle on the Electrochemical Performance of MnO2-NiO Composite Electrodes for High-Energy-Density Supercapacitors.Hybrid Electrodes by In-Situ Integration of Graphene and Carbon-Nanotubes in Polypyrrole for Supercapacitors.The Mesoscopic Electrochemistry of Molecular Junctions.Chemical insights into the roles of nanowire cores on the growth and supercapacitor performances of Ni-Co-O/Ni(OH)₂ core/shell electrodesNanoarchitectured Nb2O5 hollow, Nb2O5@carbon and NbO2@carbon Core-Shell Microspheres for Ultrahigh-Rate Intercalation PseudocapacitorsLow-Cost and High-Productivity Three-Dimensional Nanocapacitors Based on Stand-Up ZnO Nanowires for Energy Storage.Scalable one-pot bacteria-templating synthesis route toward hierarchical, porous-Co3O4 superstructures for supercapacitor electrodesIntegrated solid/nanoporous copper/oxide hybrid bulk electrodes for high-performance lithium-ion batteries.TLM-PSD model for optimization of energy and power density of vertically aligned carbon nanotube supercapacitorUltrafast-Charging Supercapacitors Based on Corn-Like Titanium Nitride Nanostructures.Ultrahigh-Power Pseudocapacitors Based on Ordered Porous Heterostructures of Electron-Correlated Oxides.Facile Synthesis of Free-Standing NiO/MnO2 Core-Shell Nanoflakes on Carbon Cloth for Flexible Supercapacitors.Composition, Microstructure, and Electrical Properties Control of the Powders Synthesized by Sol-Gel Auto-Combustion Method Using Citric Acid as the Fuel.Heterogeneous nanostructured electrode materials for electrochemical energy storage.Carbon-based electrochemical capacitors.Challenges facing lithium batteries and electrical double-layer capacitors.Nanoarchitectured graphene-based supercapacitors for next-generation energy-storage applications.Carbon-Based Materials for Lithium-Ion Batteries, Electrochemical Capacitors, and Their Hybrid Devices.Superior electric storage on an amorphous perfluorinated polymer surface.Understanding performance limitation and suppression of leakage current or self-discharge in electrochemical capacitors: a review.Asymmetric Supercapacitor Electrodes and Devices.Stable Deep Doping of Vapor-Phase Polymerized Poly(3,4-ethylenedioxythiophene)/Ionic Liquid Supercapacitors.Temperature dependence of ion diffusion coefficients in NaCl electrolyte confined within graphene nanochannels.Novel iron oxyhydroxide lepidocrocite nanosheet as ultrahigh power density anode material for asymmetric supercapacitors.Layer by Layer Ex-Situ Deposited Cobalt-Manganese Oxide as Composite Electrode Material for Electrochemical Capacitor.High performance of electrochemical lithium storage batteries: ZnO-based nanomaterials for lithium-ion and lithium-sulfur batteries.
P2860
Q28604130-3AE75994-D42A-474E-9633-4DFF878B046CQ28673380-FCC8A561-BCC4-42A9-9635-C44FD6303CF3Q28678694-5139C158-EA62-44CE-9006-5E6B87C40FA3Q28817996-40798710-3316-4AA2-A5FC-51BA2B69C8D0Q33704885-B2B5A978-C1E0-4EFC-9DDF-61E83417FC02Q33788952-139BAC10-B1EA-4ADD-8762-CAA60D4BBF34Q33833478-30F93B3E-B500-4E72-8F76-3BA87F8EA57FQ33914570-2C1365D9-5FAA-44A3-89BF-2CA417188CB6Q34545460-37D30761-F8FD-4ACD-A769-CD6B52AD43B0Q34590173-2C3F7375-ACEC-4C69-B7C7-3998E7746B5FQ34595567-8D4E792F-570C-485D-8E44-9952FE83D6D7Q34905974-02439F3E-B8BB-42DB-9555-D45AB75571ADQ35059047-3C204E91-BF6D-4413-B0E1-98760612A442Q35934615-67CAA27D-9C03-465F-906C-85E13A96766BQ36018388-BA451DF5-A3A8-467B-B371-A421CB756D25Q36099443-70DA1553-3D1A-48E7-AB2E-2042421FC6BDQ36499280-7DB39557-6AAA-4B47-86C4-BA4F5E7D41FBQ36560172-077A87E8-1AD6-459F-9A47-0F0BB93E9EF6Q36583324-7848213E-0200-43DB-BD90-0A39F0567F79Q36820154-A72D4AF4-2B91-4D1E-B025-0F0B8324F1E0Q37057938-9DC077D7-567B-4424-8558-2B8E5BFA0D7FQ37217652-4A96B710-8030-4CE0-9CC4-797E97D8BE71Q37246260-292D5EBA-EFED-4953-ABE1-B7634BEBD701Q37325941-DC90E0EE-5AA4-48B5-B3AB-E066906AA6E9Q37343837-28483301-6CA2-49EF-B275-D882F876FB79Q37685336-618BBC67-F5D1-4A24-B677-1501C7742F26Q37730846-E7CAEA3F-5F6B-4D07-82D4-AA605295C146Q37812552-ACD49C15-BD8D-4D4D-BD46-014D17B52EC4Q37990492-3367702E-C463-4DAF-A2E9-F69D89FC95ECQ38042402-E69AD745-49E4-48DD-B808-9A5F5FDE81E0Q38253866-293231A9-8DDA-4BF2-BF93-75AA8C03C524Q38542444-E94218EA-ACD3-4174-93CA-C14DB225A0F0Q38593484-4C8FBA85-3392-43A4-B511-D59BE8BACDA6Q38667182-600AF90E-58C2-4B19-BC85-BC411A5FEF88Q38752441-9E5A12B4-AA33-4A14-B034-F18760E839CEQ38850426-C6536834-BAE3-42C4-8EDF-847A1ECEB9AAQ38931300-82020B8C-76F9-4CAC-8A24-7322ECA96706Q38942629-6EFF3C66-73C0-491C-B137-14D9232B9B7DQ38986578-D2E5974D-BB55-4BBF-A675-050AB739F596Q38996640-9BDF31A1-2996-4C7F-8E9D-18432015FDB4
P2860
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в 1999
@uk
name
Electrochemical Supercapacitors
@en
Electrochemical Supercapacitors
@nl
type
label
Electrochemical Supercapacitors
@en
Electrochemical Supercapacitors
@nl
prefLabel
Electrochemical Supercapacitors
@en
Electrochemical Supercapacitors
@nl
P1476
Electrochemical Supercapacitors
@en
P2093
B. E. Conway
P356
10.1007/978-1-4757-3058-6
P577
1999-01-01T00:00:00Z