Keywords: فسفات آهن لیتیم; Reference electrode; Room temperature ionic liquids; Lithium iron phosphate; Planar electrode devices;
مقالات ISI فسفات آهن لیتیم (ترجمه نشده)
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Keywords: فسفات آهن لیتیم; Lithium-ion battery; Degradation; State-of-Health; Differential thermal voltammetry; Lithium iron phosphate; Diagnosis;
Keywords: فسفات آهن لیتیم; BMS; Battery management system; DoD; Depth of discharge; EV; Electric vehicle; LCO; Lithium cobalt oxide; LCSE; Levelised cost of stored energy; LFP; Lithium iron phosphate; LiB; Lithium-ion battery; LTO; Lithium titanate; NCM; Nickel cobalt manganese; PV
Keywords: فسفات آهن لیتیم; BMS; Battery management system; CAES; Compressed air energy storage; DoD; Depth of discharge; EES; Electric energy storage; EV; Electric vehicle; GHG; Greenhouse gases; HEV; Hybrid electric vehicle; ICEV; Internal combustion engine vehicle; Li-ion; Lithiu
Keywords: فسفات آهن لیتیم; Layer-by-layer structuring; Spray printing; Lithium titanate; Lithium iron phosphate; Lithium-ion battery;
Keywords: فسفات آهن لیتیم; Carbon coating; Cupric ion doping; Lithium-ion batteries; Lithium iron phosphate; Taguchi method;
Solid polymer electrolyte based on thermoplastic polyurethane and its application in all-solid-state lithium ion batteries
Keywords: فسفات آهن لیتیم; Solid electrolyte; Lithium lanthanum zirconium oxide; Lithium iron phosphate; Solid state cell;
Direct regeneration of recycled cathode material mixture from scrapped LiFePO4 batteries
Keywords: فسفات آهن لیتیم; Scrapped lithium ion batteries; Lithium iron phosphate; Recycling; Green advance; Cathode material; Regeneration;
Electrochemical balancing of lithium-ion cells by nickel-based cells
Keywords: فسفات آهن لیتیم; Passive balancing; Battery system; Lithium iron phosphate; Lithium titanate; Nickel-metal hydride; Nickel-zinc;
Keywords: فسفات آهن لیتیم; BEV; battery electric vehicle; EOL; end-of-life; GHG; greenhouse gas; LCA; life cycle assessment; LCO; lithium cobalt oxide; LFP; lithium iron phosphate; LMO; lithium manganese oxide; LTO; lithium titanium oxide; NCA; lithium nickelcobalt-aluminum oxide;
Pulse combustion reactor as a fast and scalable synthetic method for preparation of Li-ion cathode materials
Keywords: فسفات آهن لیتیم; Pulse combustion reactor; Lithium ion battery; Lithium iron phosphate; Lithium-rich NMC;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Hydrothermal synthesis; Urea; Organic reducing agent;
Aging behavior of lithium iron phosphate based 18650-type cells studied by in situ neutron diffraction
Keywords: فسفات آهن لیتیم; Lithium-ion batteries; Neutron diffraction; In-situ studies; Aging; Graphite; Lithium iron phosphate;
Keywords: فسفات آهن لیتیم; BEB; Battery electric bus; BEPV; Battery electric passenger vehicle; CNMIA; China Nonferrous Metals Industry Association; EV; electric vehicles; LCE; lithium carbonate equivalent; LCO; lithium cobalt oxide; LFP; lithium iron phosphate; LIB; lithium-ion ba
Keywords: فسفات آهن لیتیم; lithium iron phosphate; battery modelling; charge; parameterization; thermal behaviour;
Keywords: فسفات آهن لیتیم; FePO4; iron phosphate; Li-O2 battery; lithium-oxygen battery; LiFePO4; lithium iron phosphate; FOHC; FePO4/O2 hybrid cathode; OC; O2 cathode; ORR; oxygen reduction reaction; ηORR; ORR cathodic polarization; ηFP; FePO4 cathodic polarization; A. Inorganic
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Lithium ion battery; Wet chemical method; Excess Li+; Impurity;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Solid state synthesis; Cost reduction; Air treatment
Keywords: فسفات آهن لیتیم; Lithium battery; Lithium iron phosphate; Nanomaterial
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Carbon networks; Template method; Metal organic frameworks
Keywords: فسفات آهن لیتیم; Li-ion batteries; Lithium iron phosphate; Lithium polymers; Internal resistance; Frequency regulation; Load following; BEV;
Keywords: فسفات آهن لیتیم; Screen printing; Lithium ion accumulator; Lithium iron phosphate; PEDOT:PSS; Conductive polymer; Printed electronics; Smart Textile;
Keywords: فسفات آهن لیتیم; Li-ion battery; Lithium iron phosphate; Solid state synthesis; Solution based synthesis; Electrochemical performance
Keywords: فسفات آهن لیتیم; Battery; Lithium iron phosphate; Parameter estimation; Coupled model; Pouch cell; Particle size distribution;
Keywords: فسفات آهن لیتیم; lithium iron phosphate; pyrophosphate; nano; capacity degradation; diffusion resistance
Keywords: فسفات آهن لیتیم; Inhomogeneity; X-ray diffraction; Lithium iron phosphate; Heterogeneous electrode; Characterization; In-situ;
Keywords: فسفات آهن لیتیم; Magnesium sulphide; Lithium-ion battery; Full cell; Lithium nickel cobalt oxide; Lithium iron phosphate
Keywords: فسفات آهن لیتیم; lithium iron phosphate; microwave solvothermal synthesis; chemometric; design of experiment; cathode; lithium battery;
Keywords: فسفات آهن لیتیم; Polyvinyl acetate; Polystyrene acrylate; Lithium iron phosphate; MCMB graphite; Lithium-ion battery
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Nitrogen-doped; Ionic liquid; Carbon coating;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Carbon nanotubes; Graphene; Lithium-ion battery; High rate;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Cathode materials; Porous structure; Self-assembled micro-spherical particles; Spray drying
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Graphite; Deterioration; Cycling performance; High-rate discharge;
Keywords: فسفات آهن لیتیم; Lithium ion secondary battery; Cathode; Lithium iron phosphate; Scanning transmission electron microscopy; Electron energy-loss spectroscopy; Path dependence;
Keywords: فسفات آهن لیتیم; Electrophoresis; Graphene; Lithium iron phosphate; High mass fraction; Lithium ion battery;
Keywords: فسفات آهن لیتیم; Hydrothermal synthesis; Lithium iron phosphate; Nanocrystals; High porosity; Lithium ion battery;
Keywords: فسفات آهن لیتیم; Liquid carbon dioxide; Carbon coating; Lithium iron phosphate; Lithium secondary battery;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; LiFePO4; Lithium titanate; Li4Ti5O12; Start-stop; Battery for vehicle;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Carbon coating; Lithium ion battery; Diffusion coefficient; Activation energy;
Keywords: فسفات آهن لیتیم; Lithium-ion; Negative electrode; Microstructure; High-energy; High-power; X-ray tomography; CT; computed tomography; EDT; Euclidean distance transform; EMC; ethyl methyl carbonate; FIB; focused ion beam; LiCoO2; lithium cobalt oxide; LiFePO4; lithium iron
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Carbon coating; Lithium ion battery; Diffusion coefficient; Cathode material;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Cathode material; Hydrothermal route; Starch; Morphology control
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Polymer pyrolysis; Polytetrafluoroethylene; Carbon coating; Solid state synthesis;
Keywords: فسفات آهن لیتیم; Lithium ion cells; Phase change electrodes; Lithium iron phosphate; Reduced order model;
Keywords: فسفات آهن لیتیم; Colloidal crystal template; Lithium iron phosphate; Carbon nanocomposite; Lithium ion battery;
Keywords: فسفات آهن لیتیم; Battery temperature; Electric vehicles; Lithium iron phosphate; Cell integration; Battery model;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Electrochemical capacitor; Aqueous electrolyte; Sodium sulphide; Lithium sulphate
Keywords: فسفات آهن لیتیم; Lithium battery; Lithium iron phosphate; Water-based binder; Sodium carboxymethyl cellulose; Lithium carboxymethyl cellulose;
Keywords: فسفات آهن لیتیم; Cathode material; Lithium iron phosphate; Olivine structure; Vanadium substitution;
Keywords: فسفات آهن لیتیم; Lithium iron phosphate; Reaction mechanism; Supercritical hydrothermal synthesis; Process parameters;