Keywords: ابر خازن; Hierarchical porous carbon; Phosphorus doping; Supercapacitors;
مقالات ISI ابر خازن (ترجمه نشده)
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Keywords: ابر خازن; Silver nanowires; Polypyrrole; Nanocomposites; Pseudocapacitor; Electrodes; Supercapacitors;
Keywords: ابر خازن; Manganese oxide nanostructures; Titania nanotube arrays; Hybrid electrochemical microelectrode; High active surface sites; Supercapacitors;
Keywords: ابر خازن; Carbon nanotube fiber; Supercapacitors; Electrophoretic deposition; Polyaniline; Flexibility;
Keywords: ابر خازن; Supercapacitors; Graphene; Energy storage; Thin film; PANI;
Keywords: ابر خازن; Sucrose; Porous carbon; Facile preparation; Supercapacitors;
Keywords: ابر خازن; Graphene quantum dots; Conductive additive; Supercapacitors; Oxygen functional groups;
Keywords: ابر خازن; Metal phosphates; Mesoporous materials; Nanosheets; Supercapacitors; Lyotropic liquid crystals; Templated synthesis;
Keywords: ابر خازن; VO2; Ostwald-ripening; Nanosheets; Solvothermal; Supercapacitors; Energy storage;
Keywords: ابر خازن; Biomass; Hierarchical porous structure; Nitrogen-doped; Hydrothermal crosslinking; Supercapacitors;
Keywords: ابر خازن; Charge/discharge; Cyclic voltammetry; Electrophoresis deposition; Nickel cobalt hydroxide; Supercapacitors;
Keywords: ابر خازن; GO-RuO2 nanostring composite; Hydrothermal method; Characterization; Supercapacitors;
Keywords: ابر خازن; Lignin; Carbon nanofibers; Supercapacitors; Electrospinning; Hierarchical pore;
Keywords: ابر خازن; Graphene oxide; Ionic liquid; Composite electrolyte; Supercapacitors;
Keywords: ابر خازن; Energy; Supercapacitors; Diazonium salts; Microporous carbon; Catechol;
Keywords: ابر خازن; CNTs; PANI; XPS; Raman spectroscopy; Aqueous solution; Supercapacitors;
Keywords: ابر خازن; Soybean meal; Swelling feature; One-pot KOH activation; N, O co-doped carbons; Hierarchical porosity; Supercapacitors;
Keywords: ابر خازن; Composites; Sandwich structure; One-step electrodeposition; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Biomass; Nitrogen-doped; Porous carbon sheets; Air;
Keywords: ابر خازن; Biomass wastes; Vertical graphene; Catalyst-free; Energy storage; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; B, N, P, ternary-doped; Holey graphene hydrogel; Commercial level graphene mass loading; Ultrahigh energy density;
Keywords: ابر خازن; Egg white; Gel polymer electrolyte; Eggshell membrane; Rice husk; Supercapacitors;
Keywords: ابر خازن; Cobalt hexacyanoferrate; Multi-walled carbon nanotubes; Nanocomposite; Specific capacitance; Supercapacitors;
Keywords: ابر خازن; Carbon nanomesh; Carbon nanocages; Ionic liquid; Supercapacitors; Rate capability;
Keywords: ابر خازن; Ruthenium based materials; Electrochemical performance; Supercapacitors;
Keywords: ابر خازن; Gel polymer electrolyte films; Thermal stability; Electrical properties; Supercapacitors;
Keywords: ابر خازن; Fire-retardant; Gel polymer electrolytes; Organic electrolytes; Supercapacitors;
Keywords: ابر خازن; Graphene; Supercapacitors; Energy storage; High performance; New concept;
Keywords: ابر خازن; Supercapacitors; Conducting polymers; Composites; Metal oxides; Electrolytes;
Keywords: ابر خازن; Supercapacitors; Activated carbon; Micropores; Ionic liquids;
Keywords: ابر خازن; Energy storage and conversion; Microstructure; Functional; CoP; Supercapacitors; Excellent cycling stability;
Keywords: ابر خازن; Porous materials; Multiscale nanomaterials; Batteries; Supercapacitors; Energy storage and conversion;
Keywords: ابر خازن; Mesoporous carbon materials; Supercapacitors; Electrode for supercapacitors;
Keywords: ابر خازن; Coral-like nanostructure; Polyaniline; Sunset yellow; Electrode materials; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Pseudocapacitor; Catechol derivative; Quinone electrochemistry; Redox process;
Keywords: ابر خازن; Reduced graphene oxide; Carbon nanotube; Self-assembly; Flexibility; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Flexible electrodes; High areal capacitance; Ultramicroporous carbon cloth;
Keywords: ابر خازن; Resol; Porous carbon; Potassium acetate; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Fractional circuits; Impedance spectroscopy; Constant phase element; Effective capacitance;
Keywords: ابر خازن; A: Suspensions; A: Films; C: Electrical properties; D: Transition metal oxides; E: Electrodes; Supercapacitors;
Keywords: ابر خازن; Polyaniline: porous carbon; Composite materials; Electrochemistry; Supercapacitors;
A strategy for constructing the compact carbon structure with high volumetric performance for supercapacitors from porous carbons
Keywords: ابر خازن; Carbide-derived carbon; Hummers oxidation; Compact carbon structure; Volumetric performance; Supercapacitors;
Keywords: ابر خازن; Fish gill; Porous activated carbon; Electrochemical performance; Supercapacitors;
Keywords: ابر خازن; supercapacitors; carbon monolith; pseudocapacitance; melamine foam; energy storage;
Keywords: ابر خازن; Hybrid materials; NiMn2O4 nanorods; Graphene; Supercapacitors;
Keywords: ابر خازن; Layered double hydroxides; Co/Fe and Co/Al; Electrosynthesis; Pt electrodes; Graphite supports; Supercapacitors;
Keywords: ابر خازن; Graphene oxide; Polyaniline; Nanoarrays; Supercapacitors; Nanocomposite;
Keywords: ابر خازن; Activated carbons; Porous structure; Thermochemical activation; Alkali activation; Supercapacitors;
Keywords: ابر خازن; Graphene; Polyoxometalates; Bioinspired electrodes; Supercapacitors;
Keywords: ابر خازن; Porous carbon; Biomass; Nanosheets; Sub-nanopores; Mesopores; Supercapacitors;