Keywords: توانایی سرعت; Tungsten disulfide; Tungsten oxide; Reduced graphene oxide; Supercapacitor; Rate capability;
مقالات ISI توانایی سرعت (ترجمه نشده)
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Keywords: توانایی سرعت; Battery; Electrode; Rate capability; Rate performance; Chronoamperometry;
Keywords: توانایی سرعت; Multigap resistive plate chamber; Rate capability; Efficiency; Time resolution;
Keywords: توانایی سرعت; High discharge capacity; Conductivity; Rate capability; Lithium ion batteries;
Keywords: توانایی سرعت; Co-LDH nanocages; Graphene; Hydrolysis; Rate capability; Supercapacitor;
Keywords: توانایی سرعت; Electric double-layer capacitor; Alkylammonium salts; Rate capability; High-voltage charging; Potential variation;
Keywords: توانایی سرعت; Complexing agents; Manganese oxide; High mass loading; Rate capability; Supercapacitor;
Keywords: توانایی سرعت; Lithium; Battery; Rate capability; Fast discharge; Master curve; Model;
Keywords: توانایی سرعت; Carbon nanocages; Rate capability; Supercapacitor; Organic electrolyte;
Keywords: توانایی سرعت; Lithium rich layered oxide; Cr doping; Rate capability; Voltage decay; Stabilize oxygen;
Keywords: توانایی سرعت; Sodium-ion batteries; Wrinkled TiO2-x nanosheets with oxygen vacancies; Conductive networks; Rate capability; Cycling stability;
Keywords: توانایی سرعت; Amorphous manganese dioxide; Hierarchical porous structure; Cycle performance; Rate capability; Supercapacitor electrode;
Keywords: توانایی سرعت; Carbon nanomesh; Carbon nanocages; Ionic liquid; Supercapacitors; Rate capability;
Keywords: توانایی سرعت; Petroleum pitch; Lithium ion battery; Anode; Softening point; Rate capability;
Three-dimensional hierarchical porous tubular carbon as a host matrix for long-term lithium-selenium batteries
Keywords: توانایی سرعت; 3D hierarchical porous; Specific surface area; Polyselenides; Rate capability; Li-Se batteries;
High performance Li2MnO3/rGO composite cathode for lithium ion batteries
Keywords: توانایی سرعت; Cathode materials; Conductivities; Rate capability; Lithium ion batteries;
Keywords: توانایی سرعت; Bacterial cellulose; Carboxylic acid groups; TEMPO-meditated oxidation; Pseudocapacitance; Supercapacitor; Rate capability;
Keywords: توانایی سرعت; Sodium Ion Batteries; Cathode Materials; Vanadium Pentoxide; Cycling Performance; Rate Capability;
Superior supercapacitors based on nitrogen and sulfur co-doped hierarchical porous carbon: Excellent rate capability and cycle stability
Keywords: توانایی سرعت; Supercapacitor; Hierarchical porous carbon; Heteroatoms doping; Rate capability; Superior capacitance performance;
Achieving high capacity and rate capability in layered lithium transition metal oxide cathodes for lithium-ion batteries
Keywords: توانایی سرعت; Composition; High capacity; Rate capability; Layered transition metal oxide; In situ X-ray diffraction; Single-phase reaction;
Keywords: توانایی سرعت; Graphene aerogels; Mesopores; Rate capability; Capacitance retention;
Keywords: توانایی سرعت; Coulumbic efficiency; Rate capability; Lithium polysulfides; In-situ UV/vis spectroscopy; Lithium-sulfur battery;
Keywords: توانایی سرعت; Graphene carbon nanotube hybrid; Seamless connection; Germanium; Lithium ion batteries; Rate capability;
Keywords: توانایی سرعت; Anode materials; reduced graphene oxide (rGO); boron-doped; rate capability; cycling stability;
Keywords: توانایی سرعت; Porous nanocomposites; Cycling stability; Rate capability; Electrochemical performance;
Keywords: توانایی سرعت; Nano-fibrous PVdF-HFP matrix; Gel polymer electrolyte; Ion interaction; Rate capability
Keywords: توانایی سرعت; Phase inversion; Battery separator; Porous; Rate capability; Lithium ion battery;
Keywords: توانایی سرعت; Vanidium pentoxide; Sulphur-reduction; Rate capability; Flower-like; Nanoplate; Cycle life;
Keywords: توانایی سرعت; Reduced graphene oxide; Ionic-liquid-assisted; Iron-based fluoride; Sodium-ion batteries; Rate capability;
Keywords: توانایی سرعت; Lithium primary battery; Graphite fluorides; Polythiophene; Cathode materials; Rate capability
Keywords: توانایی سرعت; Graphene; Polypyrrole nanotube; Rate capability; All-solid-state; Supercapacitor;
Keywords: توانایی سرعت; lithium rich layered oxides; hybrid conductive network; rate capability;
Keywords: توانایی سرعت; Supercapacitor; Transition metal oxalate; Anodization; Rate capability; Cycling stability
Keywords: توانایی سرعت; Separators; Glass fiber; Lithium–sulfur batteries; Rate capability; High capacity
Keywords: توانایی سرعت; x-Polyethylene glycol diacrylate coated polyetherimide/polyvinylidene fluoride membranes; Improved wettability; Thermostability; Rate capability; Lithium ion batteries;
Keywords: توانایی سرعت; Lithium-sulfur batteries; Carbon coating; Separator; Rate capability; Sulfur loading;
Keywords: توانایی سرعت; supercapacitor; conductive additive; activated carbon; rate capability; performance evaluation; long-time stability;
Keywords: توانایی سرعت; Activated carbon; egg white; grapheme; supercapacitor; rate capability;
Keywords: توانایی سرعت; Layered oxide; Cathode; Full concentration gradient; Rate capability; Lithium-ion batteries;
Keywords: توانایی سرعت; Lithium nickel cobalt manganese oxide; Trimethyl borate; Electrolyte additive; Cyclic stability; Rate capability;
Keywords: توانایی سرعت; Vanadium pentoxide; Plate-like; Tube-like; Rate capability; Specific capacity; Cycle life;
Keywords: توانایی سرعت; Lithium ion battery; Spinel structure; Specific capacity; Rate capability; Specific surface area
Keywords: توانایی سرعت; Layered lithium-rich oxide; Hierarchically porous structure; Cathode; Lithium ion battery; Rate capability; Cyclic stability;
Keywords: توانایی سرعت; Germanium; Silicon; Li-ion battery; Mechanical stress; Rate capability; Crystallization;
Keywords: توانایی سرعت; Carbon black; Rate capability; Supercapacitor; Ternary hybrid nanostructure; Low-cost
Keywords: توانایی سرعت; Lithium-ion battery; Lithium titanium oxide; Three-dimensionally patterned electrode; Rate capability;
Keywords: توانایی سرعت; Conductive additive; Carbon black; Graphite; EDLC; Rate capability
Keywords: توانایی سرعت; In situ electrochemical cell; Li-ion battery; Atomic force microscopy; Aging; Rate capability; LiFePO4
Keywords: توانایی سرعت; Lithium ion battery; layered lithium nickel cobalt manganese oxide; Tris(trimethylsilyl)phosphite; Electrolyte additive; Cyclic stability; Rate Capability
Keywords: توانایی سرعت; Lithium-ion battery; Cathode materials; Blended cathodes; Rate capability; Hybrid electric vehicles; Electric vehicles;