Keywords: ابرخازن; Carbon nanofiber fabrics; Flexible; High surface area; Supercapacitor;
مقالات ISI ابرخازن (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: ابرخازن; Boron doping; Graphitic carbon nitride; Hierarchical; Ionic liquid; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Biomass; Self-assembly; Layer-stacking hierarchical porous carbon;
Keywords: ابرخازن; Low temperature water-bath method; CS@NiO nanocomposite; Mesopores; Supercapacitor;
Keywords: ابرخازن; Nickel-cobalt hydroxide; Phase control; Two-dimensional nanosheets; Supercapacitor;
Keywords: ابرخازن; L-Cysteine; Graphene; Supercapacitor; Long cycle life; High volumetric capacitance;
Keywords: ابرخازن; Reduced graphene oxide; Conductive binder; Flexible electrode; Supercapacitor; Capacitance; Rate performance;
Keywords: ابرخازن; Supercapacitor; Electrode material; Nickel cobaltite; Electrochemical deposition; Hydrothermal treatment;
Keywords: ابرخازن; Biomass; Hierarchical porous carbon; Heteroatom doping; Supercapacitor; Electrochemical performance;
Keywords: ابرخازن; Interconnected sheet-like porous carbon; Coal tar; Ionic liquid; Confined template; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Three-dimensional kenaf stem-derived carbon; Polyaniline; Reduced graphene oxides;
Keywords: ابرخازن; Supercapacitor; Ionic liquid; Molecular dynamics; Density functional theory; Neutron scattering;
Keywords: ابرخازن; Supercapacitor; Flexible and robust electrode; MWCNTs/PVC composite film; Polyaniline; Rapid-mixing chemical oxidative polymerization;
Keywords: ابرخازن; Polyaniline; Nanostructure; Electrodeposition; Electrochromism; Supercapacitor; Flexible device;
Keywords: ابرخازن; N-doped; Hollw carbon spheres; Surface morphology; Supercapacitor;
Keywords: ابرخازن; Alkali metal; Atom rearrangement; Graphitization; High surface area; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Graphene-like porous carbon; Sheet cellulose; Volumetric performance;
Keywords: ابرخازن; Hollow activated carbon fiber; Carbon nanotubes; Self-supported electrode; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Graphene; Compressive strength; Volumetric capacitance;
Keywords: ابرخازن; Graphene; Nickel-cobalt hydroxide; Hydrogel composite; Supercapacitor;
Keywords: ابرخازن; Hierarchical porous carbon; Chemical foaming; NaHCO3 activation; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Hydrothermal; Ru-RuO2; Nanocomposite;
Keywords: ابرخازن; Active carbon; Silver nanowires; Electric double-layer capacitor; Ultrasonic spray; Supercapacitor;
Keywords: ابرخازن; Carbon materials; Porous materials; Activation; Supercapacitor;
Keywords: ابرخازن; Manganese dioxide; Activated carbon; Graphene; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Phosphor-doped reduced graphene oxide; Polyaniline; Electrodeposition;
Keywords: ابرخازن; Palygorskite; Polyaniline gel; N-doped carbon nanotube; Hierarchical porous structure; Supercapacitor;
Keywords: ابرخازن; Polyaniline; Double-chamber; Energy storage; Supercapacitor; Fuel cell;
Keywords: ابرخازن; Vanadium nitride; Spatially confined strategy; Supercapacitor; Volumetric capacitance; Cycle life;
Keywords: ابرخازن; Withered rose; Carbon nanosheets; Supercapacitor; Wide voltage window; Cyclability;
Keywords: ابرخازن; Supercapacitor; Sulfur-doping; Lignin; Oxygen reduction; Cell; Hydrothermal carbonization;
Keywords: ابرخازن; Supercapacitor; Amphiphilic ligand exchange; Multi-walled carbon nanotubes; Oleic-acid-stabilized iron oxide; PEDOT:PSS;
Keywords: ابرخازن; Amorphous manganese silicate; MWCNTs; Composites; Electrochemical properties; Supercapacitor; Device;
Keywords: ابرخازن; Supercapacitor; Ionic liquid electrolyte; High temperature; Cyclic stability; Relaxation time constant;
Keywords: ابرخازن; Nickel-copper sulfide; Nonporous; Anion exchange; Supercapacitor; Pouch cell;
Keywords: ابرخازن; Flexibility; Dry spinning; Graphene fiber; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Free-standing electrode; Flexible current collector; Polyaniline; Porous-graphene;
Keywords: ابرخازن; Carbon nanosheets; Carbon foam; Porous; Binder-free; Supercapacitor;
Keywords: ابرخازن; Electrochemical oxidation; Activated carbon; Rhenium oxides; Sunset yellow; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Supercapattery device; Iron-PANI; Negative electrode; Energy storage;
Keywords: ابرخازن; Phosphorus-doped porous carbon; Surface property; Organic electrolyte; Supercapacitor;
Keywords: ابرخازن; Fuel cell hybrid electric vehicle; Fuel cell; Lithium-ion battery; Supercapacitor; Power source;
Keywords: ابرخازن; Nanocarbons; Nanoarchitectures; Morphologies; Supercapacitor; Energy storage;
Keywords: ابرخازن; Supercapacitor; OER; Metal oxide; Metal sulfide; Bifunctional material;
Keywords: ابرخازن; Energy storage; Carbide-derived carbon; Ionic liquid; Neutron scattering; Self-diffusion; Supercapacitor; Pair distribution function; Surface chemistry; Molecular dynamics; Interface;
Keywords: ابرخازن; Winery waste; Activated carbon; Hydrothermal carbonization; CO2 capture; Supercapacitor;
Keywords: ابرخازن; Manganese-lithium-borate glasses; New electrode material; X-ray absorption spectroscopy; X-ray photoelectron spectroscopy; Electrochemical properties; Supercapacitor;
Keywords: ابرخازن; Amino acid ionic liquid; Supercapacitor; Potential of zero charge; Molecular dynamics simulation; Responding potential;
Keywords: ابرخازن; Poly(ionic liquid); Polymeric ionic liquid; Polyelectrolytes; Ionic conductivity; Conducting polymers; Supercapacitor;
Keywords: ابرخازن; Porous carbon; Biomass derived carbon; Ultrafine treating; Ultrasonication-milling process; Supercapacitor;