Keywords: ابر خازن; Nanoporous activated carbon; High specific capacitance; Supercapacitors; Template-free synthesis; Indian cake rusk;
مقالات ISI ابر خازن (ترجمه نشده)
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Keywords: ابر خازن; Supercapacitors; Nanorods; Carbon sheets; Energy; Large-scale production;
Keywords: ابر خازن; Carbon membrane; Asymmetric and symmetric; Hierarchical pore structure; Electrochemical behavior; Supercapacitors;
Keywords: ابر خازن; Black phosphorus; Phosphorene; Electrochemical cathodic exfoliation; Iodide ions; Supercapacitors;
Keywords: ابر خازن; Trend removal; Electrochemical noise; Supercapacitors; Homogenous corrosion; Thermal drift;
Keywords: ابر خازن; Carbon materials; Molten salt; Porous materials; Electrochemical etching; Supercapacitors;
Keywords: ابر خازن; NiS/CoS/PEDOT:PSS; Chemical bath deposition; Supercapacitors;
Keywords: ابر خازن; Nanorods; Samarium selenide; X-ray techniques; XPS; Supercapacitors; Specific capacitance;
Keywords: ابر خازن; Graphene; Colloidal chemistry; Supercapacitors; Nanoporous structure; Two-dimensional materials;
Keywords: ابر خازن; Carbon nanotubes; Anodic activation; Supercapacitors;
Keywords: ابر خازن; Graphene; Polypyrrole; Nanofiber; Green method; Supercapacitors;
Keywords: ابر خازن; Porous materials; Thin films; Supercapacitors; Carbon nanotubes; Energy storage and conversion;
Keywords: ابر خازن; Porous carbon; Nitrogen doping; Synthesis; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Transition-metal molybdenum nitrides; Pseudocapacitance; Micropores;
Keywords: ابر خازن; Supercapacitors; Capacitance; Energy storage; Power line; Fractional calculus;
Keywords: ابر خازن; Monolithic integration; Printed serial modules; Supercapacitors; Balancing; Resistive dissipation;
Keywords: ابر خازن; Nanostructured porous carbons; Textural properties; Surface chemistry; Energy; Electrocatalysts; Supercapacitors;
Keywords: ابر خازن; Energy storage; Vanadium oxide; Thin films; Supercapacitors; Electrolyte;
Keywords: ابر خازن; Polyaniline; Unidirectional graphene aerogel; Orientation; Supercapacitors;
Keywords: ابر خازن; Nitrogen-doped; Porous carbon; Organic compounds; Supercapacitors;
Keywords: ابر خازن; Graphene; Carbon nanotube; Self-assembly; Flexibility; Supercapacitors;
Keywords: ابر خازن; Petroleum pitch; Hierarchical porous carbon; Electrochemical performance; Supercapacitors;
Keywords: ابر خازن; 3D printing; Supercapacitors; Fused deposition modeling printing; Paste extrusion system; Energy storage device;
Keywords: ابر خازن; Supercapacitors; Liquid phase plasma; Copper oxides; Equivalent series resistance; Electrochemical capacitance; Cyclic stability;
Keywords: ابر خازن; Supercapacitors; Electrode; Rice straw; Sustainable;
Keywords: ابر خازن; Ni-MOF; Ni/Co-MOF; Supercapacitors;
Keywords: ابر خازن; Metal-organic frameworks; Nanocapsules; Carbons; Doping; Supercapacitors;
Keywords: ابر خازن; Ni2P nanobelt; Electrode materials; Hydrogen evolution reaction; Catalyst; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Solid polymer gel electrolytes SPGE; Widetemperature range; EMITFSI/gamma-butyrolactone; Floating at 100â¯Â°C; High stability;
Keywords: ابر خازن; Graphene; Carbon nanotubes; Layer structure; Electrochemical performance; Supercapacitors;
Keywords: ابر خازن; Coal; Activated carbon; Melt infiltration; Porosity; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Carbon nanotubes; Polyaniline; Nanocomposite; Chemical vapor deposition; Electrodeposition;
Keywords: ابر خازن; Chemoselective synthesis; Bifunctional; Nitrogen-doped graphene; Electrocatalysis; Supercapacitors;
Keywords: ابر خازن; Electrical double-layer capacitors; Supercapacitors; Porous carbon materials; Surface oxygen functional groups; Double-layer capacitance;
Keywords: ابر خازن; Metal-organic framework; Supercapacitors; Graphene; Etching; Electrostatic assembly;
Keywords: ابر خازن; Polyaniline; Gamma aluminum oxide; Gamma iron (III) oxide; Nanocomposites; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Polymer binders; Graphene; Thin film;
Keywords: ابر خازن; Supercapacitors; Carbon materials; Silkworm excrement; Multi-heteroatom; Self-doping;
Keywords: ابر خازن; Supercapacitors; Electrodeposition; Pseudocapacitance; Stability; Energy storage;
Keywords: ابر خازن; Supercapacitors; Carbon materials; Honeycomb-like structure; Biomass; Gelatinization;
Keywords: ابر خازن; Coordination supramolecular network; Supercapacitors; Sub-micrometer rod arrays; Energy storage;
Keywords: ابر خازن; Manganese hexacyanoferrate; Multi-walled carbon nanotubes; Nanocomposite; Supercapacitors;
Keywords: ابر خازن; Plant proteins; Sustainable energy storage materials; Nitrogen-doped carbon fibers; Onion-like carbon; Supercapacitors;
Keywords: ابر خازن; Electrochemical impedance; Porous electrodes; Electric double layer capacitors; Supercapacitors; Randles circuit; Small-signal dynamic response;
Keywords: ابر خازن; Electrochemical systems; Supercapacitors; Electrolyte depletion; Resistance tailoring; Charging rate;
Keywords: ابر خازن; Super hierarchical porous carbons; Coconut shell; Sewage sludge; Acid treatment; Supercapacitors;
Keywords: ابر خازن; Supercapacitors; Quantum-dot sensitized solar cells; Counter electrode; Nickel foam; Excellent specific capacitance;
Keywords: ابر خازن; Carbon; Lignin; SAXS; Batteries; Supercapacitors;
Keywords: ابر خازن; Biomass; Porous composites; Oxygen-enriched; High-rate performance; Supercapacitors;
Keywords: ابر خازن; Cotonier strobili fibers; Activated carbon tube; Hierarchical porous structure; Electrochemical behavior; Supercapacitors;