Keywords: ابرخازن; Biomass materials; Honeycomb-like structure; 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; Electron transport; Interfacial interaction; Cobalt hydroxide; Supercapacitor;
Keywords: ابرخازن; Porous carbon; Metal organic framework; Supercapacitor; Zn-BTC; KOH activation;
Keywords: ابرخازن; Complexing agents; Manganese oxide; High mass loading; Rate capability; Supercapacitor;
Keywords: ابرخازن; Gel polymer electrolyte; Screen printing; Slot-die coating; Mass manufacturing; Supercapacitor; Printing technology;
Keywords: ابرخازن; Manganese oxide; Supercapacitor; Adsorption; Extraction; Carbon nanotube; Composite;
Keywords: ابرخازن; Graphene; Hybrids; Supercapacitor; Polyaniline; Nanocone;
Keywords: ابرخازن; Supercapacitor; Cross linked carbon nanofibers; Si doping; Electrospinning; Polyhedral oligomeric silsesquioxane (POSS);
Keywords: ابرخازن; Nanocomposite; CDs; Flexible electronics; Hydrothermal method; Supercapacitor;
Keywords: ابرخازن; Microfiber; Graphene oxide; Manganese oxide; Polyvinyl alcohol; Poly(3,4-ethylenedioxythiophene); Supercapacitor;
Keywords: ابرخازن; Ionic liquid; Supercapacitor; Mass balance;
Keywords: ابرخازن; Activated carbon fibers; Low temperature activation; Sub-nanometer pore; Supercapacitor;
Keywords: ابرخازن; Flexible; Thin film; Carbon fiber; Silver nanowires; Supercapacitor;
Keywords: ابرخازن; Vertical graphene; VGN; Plasma nanotechnology; Electrochemical capacitor; Supercapacitor; Ultracapacitor;
Keywords: ابرخازن; Ternary nanocomposite; Supercapacitor; Polypyrrole; Graphene oxide; Carbon nanotube;
Keywords: ابرخازن; Supercapacitor; Plate-like zinc cobaltite; Hydrothermal synthesis; Specific capacitance; Electrochemical performance;
Keywords: ابرخازن; Polyaniline; Graphene; Nanocomposites; Supercapacitor;
Keywords: ابرخازن; Polyaniline; Molybdenum trioxide; Carbon cloth; Capacitance; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Activated carbon; Separator; Poly(vinylidene fluoride); Hydrophilic membrane;
Keywords: ابرخازن; Supercapacitor; Electrical double layer; Helmholtz; Gouy-Chapman; Stern; Grahame models; Electrochemical Impedance;
Keywords: ابرخازن; Supercapacitor; Carbon materials; Biochar; Hierarchial porous carbon; Pyrolysis; KOH activation;
Keywords: ابرخازن; Carbide-derived carbon; Supercapacitor; Acetonitrile; Passivation; Overpotential; High power density;
Keywords: ابرخازن; Energy management strategy; Supercapacitor; Load power tracking; Fuzzy logic; Maximum power point tracking;
Keywords: ابرخازن; Supercapacitor; Galvanostatic charge-discharge; Thionine; Reduced graphene oxide; Nanocomposite;
Keywords: ابرخازن; Hydrogel electrolyte; Activated carbon; Electrodeposition; Temperature stability; Supercapacitor;
Keywords: ابرخازن; Interconnected; Coal tar pitch; Microcrystalline cellulose; Supercapacitor; Cycling stability;
Keywords: ابرخازن; Atmospheric pressure plasma jets; Supercapacitor; Carbon black; Reduced graphene oxide;
Keywords: ابرخازن; Nickel hydroxide carbonate; Nanobelts; Supercapacitor; RGO composite; Two dimentional structure;
Keywords: ابرخازن; Superconducting current controller (SCC); Air-core superconducting transformer; Supercapacitor; Series voltage compensation;
Keywords: ابرخازن; Carbon fiber papers; Binder-free; Flexible electrode; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Electrochemical double-layer capacitor; Ageing; High current; High voltage;
Keywords: ابرخازن; Carbon nanocages; Rate capability; Supercapacitor; Organic electrolyte;
Keywords: ابرخازن; Ultrahigh nitrogen-decorated; Supercapacitor; MOF-Derived;
Keywords: ابرخازن; Microporous carbon; Supercapacitor; Regular porosity; Covalent organic polymer; Nitrogen doped carbon;
Keywords: ابرخازن; Kaolinite hard template; Carbon nanomaterials; Supercapacitor; Energy storage;
Keywords: ابرخازن; Porous carbons; Biochar; Electrode; Supercapacitor; Nitrogen and oxygen co-doping;
Keywords: ابرخازن; Supercapacitor; Ionic liquid; Graphene electrode; Differential capacitance; Electric double layer structure; Charging mechanism; Molecular dynamics simulation;
Keywords: ابرخازن; Hybrid device; Nanoarchitecture; Cobalt oxide; Supercapacitor; High energy; Electrode materials;
Keywords: ابرخازن; Supercapacitor; Resorcinol formaldehyde resin; Calcium acetate; Holey carbon nanosheets;
Keywords: ابرخازن; Carbon nanofibers; Cyclic voltammetry; Supercapacitor; Cyclic stability; Flexibility; Temperature dependence;
Keywords: ابرخازن; Templated carbon; Dual-redox additive; Integrative effect; Supercapacitor;
Keywords: ابرخازن; Lanthanum nanoparticles; Reduced graphene oxide; Supercapacitor; Areal capacitance; Impedance;
Keywords: ابرخازن; Supercapacitor; Alizarin red; Bromoamine acid; Biomass carbon;
Keywords: ابرخازن; Nickel-cobalt double hydroxide; Graphene oxide; Supercapacitor; Pseudocapacitance;
Keywords: ابرخازن; Hollow carbon microspheres; Polypyrrole; Electrical double-layer capacitance; Faradic capacitance; Supercapacitor;
Keywords: ابرخازن; One-step method; Materials characterisation; 3D porous N-doped graphene; Supercapacitor; High energy density;
Keywords: ابرخازن; Borohydride; Sustainable energy; Hydrogen storage; Supercapacitor;
Keywords: ابرخازن; Integration; Multifunction; Supercapacitor; Wearability; Electronic;
Keywords: ابرخازن; Ilmenite; Leucoxene; Electrochemical capacitor; Supercapacitor;
Keywords: ابرخازن; Graphene oxide-polyaniline; CMC binder; Electrochemical properties; Supercapacitor;