Keywords: کاتد ; Lithium-sulfur battery; Cathode; Porous carbon; Template; Hierarchical porosity;
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Keywords: کاتد ; Cathode; Cation disorder; Lithium-rich oxide; Lithium-ion batteries;
Keywords: کاتد ; Energy storage and conversion; Carbon materials; Urchin-like structures; Lithium sulfur battery; Cathode;
Keywords: کاتد ; Cathode; Nanoparticle; Potassium-ion battery; Prussian blue analogue;
Keywords: کاتد ; Chemically regenerative redox fuel cell; Cathode; TEMPO; Redox reaction;
Keywords: کاتد ; Cross-linked polystyrene; Polar; Polysulfides; Cathode; Lithium-sulfur batteries;
Keywords: کاتد ; Direct ethanol fuel cell; Nitrate reduction reaction; Cathode; Non-Pt catalyst;
Keywords: کاتد ; Rechargeable aluminum battery; Cathode; CMK-3; Ordered mesoporous; Super-long life;
Keywords: کاتد ; Cathode; Impregnation; Large straight open pores; Phase inversion; Solid oxide fuel cells;
Keywords: کاتد ; Lithium distribution; Laser-induced breakdown spectroscopy; Cathode; Lithium fluoride; X-ray absorption spectroscopy;
Keywords: کاتد ; Prussian blue; Carbon nanotubes; Nanostructures; Cathode; Rechargeable aqueous batteries;
Keywords: کاتد ; Lithium-ion battery; Oxide; Titania; Anode; Cathode; Sustainability;
Keywords: کاتد ; Sodium-ion batteries; Cathode; Prussian blue; SEI;
Keywords: کاتد ; Birnessite; Manganese oxide; Aqueous rechargeable batteries; Zinc; Cathode;
Keywords: کاتد ; Li-ion battery; Cathode; Binder; PVDF; PVAc; Aqueous electrolyte;
Keywords: کاتد ; Intermediate temperature-operating solid oxide fuel cell (IT-SOFC); Phase synthesis; Cathode; Electrical conductivity; Area specific resistance (ASR);
Keywords: کاتد ; Solid oxide fuel cells; Thermal stress; Interconnect; Interface; Cathode;
Keywords: کاتد ; Low temperature-operating solid oxide fuel cell; Cathode; Electrospinning; Fiber; Microstructure; Electrical conductivity; Area specific resistances;
Keywords: کاتد ; NMC; Cathode; CEI layers; Electrolyte; Anode decomposition;
Keywords: کاتد ; Electrode potential; Azo dye; Microbial fuel cell (MFC); Azo reductase; Cathode;
Keywords: کاتد ; Sediment microbial fuel cells; Light irradiation; Cathode; DNA analysis; Microbiota; Photosynthesis;
Keywords: کاتد ; Solid oxide fuel cells (SOFCs); Cathode; Oxygen reduction reaction; Alkaline metal doped; Perovskites;
Keywords: کاتد ; Upper cutoff voltage; High-energy high-voltage; Lithium ion battery cost; Specific energy; Battery cost; Cathode;
Keywords: کاتد ; Lithium ion; Cathode; Numerical model; Temperature effects; State of charge; Optimization;
Keywords: کاتد ; Organic material; Two-dimensional; Cathode; Alkali-metal-ion battery;
Keywords: کاتد ; Li-ion batteries; Aqueous electrolyte; Cathode; Anode; Electrochemical performance;
Keywords: کاتد ; Biofuel cells; Glucose; Glucose oxidase; Oxygen independence; Polychlorotrifluoroethylene; Cathode;
Keywords: کاتد ; Porphyrin; Phthalocyanine; Fuel cell; Water electrolyzer; Electrocatalyst; Oxygen reduction reaction; PEFC; Anode; Cathode;
Keywords: کاتد ; Li-ion; Battery; Cathode; Anode; Electrode;
Keywords: کاتد ; Dual-ion battery; Graphite; Cathode; Anion intercalation; PF6â;
Keywords: کاتد ; Cathode; Lithium battery; Cobalt-doping; Electrochemical activation; Voltage decay;
Keywords: کاتد ; Fuel cell; Solid oxide fuel cell; Oxygen reduction; Cathode; Raman spectroscopy;
Keywords: کاتد ; Porous carbon; Polyacrylonitrile; Cathode; Phase inversion; Lithium-sulfur batteries;
Keywords: کاتد ; Lithium-ion batteries; Cathode; Electrospinning; Nanofiber; Metallic Cu;
Keywords: کاتد ; Hydrogen; Water electrolysis; Cathode; Molybdenum; Nickel; Metal oxides;
Keywords: کاتد ; Lithium ion battery; Cathode; Polyimide; In-situ polymerization; Composite;
Keywords: کاتد ; Dual-doped graphene; Microwave; Cathode; Lithium-sulfur battery;
Keywords: کاتد ; Prussian blue analogues; Sodium-ion batteries; Aqueous electrolyte; Cathode; Nickel substitution;
Keywords: کاتد ; Sodium-ion batteries; Anode; Cathode; Full-cell; High performance energy storage; Long cycle life;
Keywords: کاتد ; Cathode; Li-ion battery; Crack; Transmission X-ray microscopy; Fast charging; Chemomechanical interplay;
Keywords: کاتد ; Polypyrrole hollow nanosphere; Trapping sulfides; Cathode; Lithium-Sulfur batteries;
Keywords: کاتد ; Surface stability; Cathode; Lithium manganese oxides; Silyl functional group; Electrolyte additive;
Keywords: کاتد ; Cathode; Conversion mechanism; Lithium-sulfur battery; Nitrogen-doped carbon; Operando diffraction;
Keywords: کاتد ; Cathode; PGM-Free catalysts; Oxygen reduction reaction; Microbial fuel cell; Power generation;
Keywords: کاتد ; Redox mediators; Energy; Contaminants; Electrogenic microorganisms; Electrotrophic microorganisms; Bioelectrochemical system; Cathode; Anode; Immobilization; Electron transfer;
Keywords: کاتد ; Microbial fuel cell; Cathode; Graphite paste; Titanium dioxide; Graphene oxide; Power density;
Keywords: کاتد ; Cathode; Vacuum electron diode; Electron emission current; Accelerator efficiency;
Keywords: کاتد ; Lithium-ion battery; Conversion; Bismuth fluoride; Rate performance; Cathode;
Keywords: کاتد ; Doping; Conductivity; Thin films; Cathode; Fuel cell;
Suppression of potential hysteresis between charge and discharge reactions in lithium-rich layer-structured cathode material by increasing nickel/manganese ratio
Keywords: کاتد ; Battery; Cathode; Lithium-rich; Hysteresis; OCP; XAFS;