Keywords: ابرخازن; Multiwall carbon nanotubes; Functionalization; SiO2; Supercapacitor;
مقالات ISI ابرخازن (ترجمه نشده)
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Keywords: ابرخازن; Chemical bath deposition; Cobalt sulfide; Oxygen evolution reaction; Supercapacitor; Thin film;
Keywords: ابرخازن; Graphene paper; Electrochemical exfoliation; Green method; Flexible electrode; Supercapacitor;
Keywords: ابرخازن; Electrodeposition; Ruthenium oxide; Ruthenium(III) nitrosylsulfate; Morphology; Supercapacitor;
Keywords: ابرخازن; Binder-free electrode; NiCo2O4; Porous electrode; Supercapacitor; Specific capacitance;
Keywords: ابرخازن; Supercapacitor; Carbon nanotube; Surface modification; Rest potential; Stability window;
Keywords: ابرخازن; Paper towel; Nitrogen-doped carbon; Oxygen reduction reaction; Supercapacitor;
Keywords: ابرخازن; Porous carbon; Montmorillonite; Activation; Nitrogen-doping; Supercapacitor;
Keywords: ابرخازن; Nano-sized metal oxide; Bulk metal; Galvanic reaction; Potential difference; CB; carbon black; CNT; carbon nanotube; CSLM; confocal laser scanning microscopy; CV; cyclic voltammogram; EDX; energy dispersive X-ray spectroscopy; FT; Fourier transform; GO; g
Keywords: ابرخازن; Metal-organic framework; Battery; Supercapacitor; Electrocatalyst; Electrochemical sensor;
Keywords: ابرخازن; Graphene; Polypyrrole; Supercapacitor; Stability;
Keywords: ابرخازن; Polyaniline; Nitrogen-doping; Oxygen reduction reaction; Supercapacitor;
Keywords: ابرخازن; Sulfur; Nickel oxide; Doped; Supercapacitor; Nanosheets;
Keywords: ابرخازن; Celery; Biomass; Activated carbon; Polyaniline; Supercapacitor;
Keywords: ابرخازن; Porous nanofiber; Electrospinning; Supercapacitor; Separator; Ionic liquid;
Keywords: ابرخازن; Electron withdrawing group; Electron donating group; p-Hydroquinone; Redox additive; Supercapacitor;
Keywords: ابرخازن; MnO2; Supercapacitor; Solvent-assisted synthesis; Carbon nanotubes; Reduced graphene oxide;
Keywords: ابرخازن; Manganese dioxide; Porous materials; High specific surface areas; Template-free approach; Supercapacitor;
Keywords: ابرخازن; Electroplating; Electrospinning; Ag; Carbon nanofiber; Flexible electrode; Supercapacitor;
Keywords: ابرخازن; Aluminum sulfide; Energy density; Graphene oxide; Specific capacitance; Supercapacitor;
Keywords: ابرخازن; Woven textile; Triboelectric nanogenerator; Supercapacitor; Self-charging;
Keywords: ابرخازن; Core-shell structure; Highly loaded polypyrrole; Carbon nanotube film; Supercapacitor;
Keywords: ابرخازن; Polyaniline nanofiber/functionalized reduced graphene oxide (PANI NFs/FrGO) composite films; In-situ hybridization; Supercapacitor; Sulfur functionalization; Flexible;
Keywords: ابرخازن; Metal-organic frameworks; Ni(OH)2 hierarchical architecture; Supercapacitor; Eco-friendly; Conformal transformation;
Keywords: ابرخازن; Ni(OH)2; Sulfonated graphene; Supercapacitor; Electrode material;
Keywords: ابرخازن; Oxygen functional groups; Supercapacitor; Carbon;
Keywords: ابرخازن; Polypyrrole; Graphene; Supercapacitor; Peukert's constant; Enhanced capacitance;
Keywords: ابرخازن; Multi-growth site graphene; Polyaniline; Supercapacitor;
Keywords: ابرخازن; Galvanostatic charge/discharge; Graphene oxide; Tube-like; Polyaniline; Supercapacitor;
Keywords: ابرخازن; Zinc hydroxyl carbonates; 3D structure; Supercapacitor;
Keywords: ابرخازن; Copper cobalt sulfide; Amorphous-crystalline transition; Hydrothermal temperature; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Graphene quantum dots; Cobalt oxide; Nanofiber; Electropolymerization;
Keywords: ابرخازن; Calotropis gigantean fibers; Confinement effect; Supercapacitor; Polypyrrole; Pseudocapacitance;
Keywords: ابرخازن; Electrospinning; Metal-organic frameworks; ZIF7; Supercapacitor; Nanoporous carbon;
Keywords: ابرخازن; Supercapacitor; Quinone; Graphene; Pseudocapacitance; All-solid-state; Flexible;
Keywords: ابرخازن; Self-supporting; Activated carbon/carbon nanotube/reduced graphene oxide film; Flexible electrode; Binder free; Supercapacitor;
Keywords: ابرخازن; Poly(acrylic acid) hydrogel; Polyaniline; Carbon nanotube; Core-shell structure; Supercapacitor;
Keywords: ابرخازن; Wild rice stem; Activated porous carbon; Electrode materials; Supercapacitor;
Keywords: ابرخازن; Salt assisted; Solution combustion synthesis; Ni-based materials; Supercapacitor; Composite;
Keywords: ابرخازن; Nickel ferrite; Three dimensional nitrogen-doped graphene (3DNG); Supercapacitor; Flexible electrode materials;
Keywords: ابرخازن; Porous carbon; Nitrogen-doping; Supercapacitor; Electrochemical energy storage;
Keywords: ابرخازن; Three-dimensional graphene; Supercapacitor; Lithium ion battery; Interfacial interaction; Energy storage;
Keywords: ابرخازن; Tb2(WO4)3; Nanoparticles; Sonochemical route; Supercapacitor;
Keywords: ابرخازن; Amorphous molybdenum sulfide; Electrodeposition; Nanosheets; Porous structure; Supercapacitor;
Keywords: ابرخازن; Biomass waste; Microporous carbon; Carbon purity; Supercapacitor; Lithium ion battery; SnO2;
Keywords: ابرخازن; Spray drying; Whey powder; Porous carbon material; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Boron-doped; Graphene sponge; Porous structure;
Keywords: ابرخازن; Supercapacitor; Nickel cobalt sulfide; Wearable electronics; Yarn electrode; Fiber;
Keywords: ابرخازن; Electrochemically reduced graphene oxide; Ni-Cu foam; Supercapacitor; Porous film; Electrochemical reduction;
Keywords: ابرخازن; Boron doping; Graphitic carbon nitride; Hierarchical; Ionic liquid; Supercapacitor;