Keywords: ظرفیت محو شد; Lithium-ion battery; Capacity fade; dV/dQ analysis; Graphite stage structure; In situ XRD;
مقالات ISI ظرفیت محو شد (ترجمه نشده)
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Keywords: ظرفیت محو شد; Lithium-sulfur battery; Capacity fade; Lithium sulfide; Lithium polysulfide;
Keywords: ظرفیت محو شد; Li-ion battery; Battery aging; Multiple s; cales; SEI growth; Capacity fade; Deterministic models;
Keywords: ظرفیت محو شد; Thermal properties; Electrochemical-thermal model; Capacity fade; Side reaction; Lithium ion battery;
Keywords: ظرفیت محو شد; Capacity fade; Charging/discharging efficiency; Fuel savings; Economic dispatch;
Keywords: ظرفیت محو شد; Battery aging; porous electrode theory; morphological changes; population balance model; capacity fade;
Keywords: ظرفیت محو شد; Economic Dispatch; Energy Storage System; Efficiency; Capacity Fade; Pareto Optimal;
Keywords: ظرفیت محو شد; Chemical diffusion coefficient; Activation energy; Activation factor; Lithium-ion cells; Capacity fade; Low temperature; Pseudo-OCV;
Keywords: ظرفیت محو شد; Lithium-ion battery; External pressure; Capacity fade; Power fade; Cell ageing; Cycle life;
A Bayesian nonlinear random effects model for identification of defective batteries from lot samples
Keywords: ظرفیت محو شد; Lithium-ion battery; Capacity fade; Nonlinear random effects; Bayesian statistics; Markov chain Monte Carlo;
Impedance change and capacity fade of lithium nickel manganese cobalt oxide-based batteries during calendar aging
Keywords: ظرفیت محو شد; Lithium-ion battery; Calendar aging; Capacity fade; Cell impedance; Lifetime prediction; Electrochemical impedance spectroscopy;
Keywords: ظرفیت محو شد; Capacity fade; degradation; SEI film; gas evolution; manganese dissolution;
Keywords: ظرفیت محو شد; Radiation effects; Lithium ion batteries; LiFePO4; LiPF6; Electrolyte; Capacity fade
Keywords: ظرفیت محو شد; Lithium-ion battery; Electrode defect; Quality control; Manufacturing; Capacity fade
Keywords: ظرفیت محو شد; Lithium-ion battery; Electrochemical model; Capacity fade; Thermal model; Variable porosity; Battery management system;
Keywords: ظرفیت محو شد; Lithium sulphur batteries; Lithium sulphide; Capacity fade; Carbon-sulphur composite;
Keywords: ظرفیت محو شد; Lithium-ion batteries; Capacity fade; Low discharge rate; Simulation; Cycle life
Keywords: ظرفیت محو شد; State-of-charge; State-of-health estimation; Extended Kalman filter; Battery aging; Capacity fade; Coulomb counting;
Keywords: ظرفیت محو شد; Aging mechanism; Battery pack; Capacity fade; Electric quantity; Loss of lithium inventory;
Keywords: ظرفیت محو شد; Lithium-ion batteries; Capacity fade; Impedance spectrum; Pulsed discharge; High C rate; Aging;
Keywords: ظرفیت محو شد; Li-ion battery; Solid electrolyte interphase; Mn dissolution; Mn deposition; Capacity fade; Ion-exchange mechanism;
Keywords: ظرفیت محو شد; Bayesian random effect models; Capacity fade; Cycles to failure distribution; Prognostics
Keywords: ظرفیت محو شد; Lithium-ion batteries; Negative pulse charging; Capacity fade; Parameter estimation; Electrochemical impedance analysis;
Keywords: ظرفیت محو شد; Li ion polymer battery; Modeling of side reactions; Physics-based degradation model; Capacity fade; Loss of ion and active material; SEI;
Keywords: ظرفیت محو شد; Lithium-ion battery; Mechanical stress; Capacity fade; Cell aging; Surface film; Cycle life;
Keywords: ظرفیت محو شد; Asymmetric current; Capacity fade; Crossover; Energy storage; Membrane; Vanadium flow battery
Keywords: ظرفیت محو شد; Manganese dissolution; Oxidation state; LixMn2O4 spinel; Capacity fade; polymeric crown ether; Aza-15-crown-5
Keywords: ظرفیت محو شد; Lithium-ion cell; Graphite electrode; Electrolyte decomposition; Capacity fade;
Keywords: ظرفیت محو شد; Li-ion battery; Capacity fade; Energy efficiency fade; Re-purposed battery; Second use
Keywords: ظرفیت محو شد; Battery management system (BMS); Battery fuel gauge (BFG); Li-ion battery; Capacity estimation; Capacity fade;
Keywords: ظرفیت محو شد; Li ion polymer battery; Degradation model; Side reactions; SEI; Deposits; Capacity fade;
Keywords: ظرفیت محو شد; Tin oxide; Aggregation; Capacity fade; Lithium-ion battery;
Keywords: ظرفیت محو شد; Lithium-ion battery; Mechanical stress; Separator; Power fade; Capacity fade; Tortuosity;
Electrochemical-thermal P2D aging model of a LiCoO2/graphite cell: Capacity fade simulations
Keywords: ظرفیت محو شد; Lithium-ion battery; Eletrochemical-thermal model; Aging; SEI layer growth; Capacity fade; Charge-discharge cycles; Pseudo-two-dimensional model;
Modeling the degradation mechanisms of C6/LiFePO4 batteries
Keywords: ظرفیت محو شد; Li-ion batteries; Modeling; Solid-Electrolyte-Interface; Capacity fade; Material decay;
Evaluating electrolyte additives for lithium-ion cells: A new Figure of Merit approach
Keywords: ظرفیت محو شد; Capacity fade; Impedance rise; Energy density; Power density; Lithium-ion; Full cells;
Effects of imbalanced currents on large-format LiFePO4/graphite batteries systems connected in parallel
Keywords: ظرفیت محو شد; LiFePO4; Capacity fade; Parallel batteries; Imbalanced currents
A Mathematical model to study the effect of potential drop across the SEI layer on the capacity fading of a lithium ion battery
Keywords: ظرفیت محو شد; Lithium ion battery; Solvent; capacity fade
Evidence of loss of active lithium in titanium-doped LiNi0.5Mn1.5O4/graphite cells
Keywords: ظرفیت محو شد; Lithium-ion batteries; High-voltage spinel; 3-Electrode cells; Capacity fade; Lithium loss;
Quantifying EV battery end-of-life through analysis of travel needs with vehicle powertrain models
Keywords: ظرفیت محو شد; Electric vehicles; Battery degradation; Capacity fade; Power fade; Battery second life; Battery retirement;
Degradation of lithium ion batteries employing graphite negatives and nickel–cobalt–manganese oxide + spinel manganese oxide positives: Part 2, chemical–mechanical degradation model
Keywords: ظرفیت محو شد; Capacity fade; Lithium-ion; NCM; LMO; Blended cathode; Fatigue
Degradation of lithium ion batteries employing graphite negatives and nickel-cobalt-manganese oxide + spinel manganese oxide positives: Part 1, aging mechanisms and life estimation
Keywords: ظرفیت محو شد; Capacity fade; Lithium-ion; NCM; LMO; Blended cathode; Life model;
Cell degradation in commercial LiFePO4 cells with high-power and high-energy designs
Keywords: ظرفیت محو شد; Degradation modes; Aging mechanism; Lithium iron phosphate; Capacity fade; Model simulation; dQ/dV analysis;
Electrochemical impedance spectroscopy analysis for lithium-ion battery using Li4Ti5O12 anode
Keywords: ظرفیت محو شد; Li-ion battery; Electrochemical impedance spectroscopy; Li4Ti5O12 anodes; Capacity fade;
Selective anion exchange membranes for high coulombic efficiency vanadium redox flow batteries
Keywords: ظرفیت محو شد; Anion exchange membrane; Capacity fade; Coulombic efficiency; Self-discharge; Vanadium redox flow battery
Investigation of a method to hinder charge imbalance in the vanadium redox flow battery
Keywords: ظرفیت محو شد; Vanadium redox flow battery; Catalyst; State-of-charge balance; Performance; Capacity fade
Optimizing membrane thickness for vanadium redox flow batteries
Keywords: ظرفیت محو شد; Crossover; Vanadium redox flow battery; Proton exchange membrane; Capacity fade; Membrane resistance
A comparison of lead-acid and lithium-based battery behavior and capacity fade in off-grid renewable charging applications
Keywords: ظرفیت محو شد; Off-grid renewables; Lead-acid; Lithium-ion; Capacity fade; Wind; Variable charge
Capacity fade and aging models for electric batteries and optimal charging strategy for electric vehicles
Keywords: ظرفیت محو شد; Battery degradation models; Capacity fade; Self-organizing maps; Electric vehicles; Energy management
Controlled synthesis of plate-like LiCoPO4 nanoparticles via supercritical method and their electrode property
Keywords: ظرفیت محو شد; Supercritical; Plate morphology; Coating; High voltage discharge; Capacity fade