Keywords: زندگی چرخه; Controllable electrodeposition; 3DNFs; Cycle life; Electrocatalytic properties;
مقالات ISI زندگی چرخه (ترجمه نشده)
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Keywords: زندگی چرخه; Microbatteries; Solid-state thin film batteries; Cycle life; Li-ion cell;
Keywords: زندگی چرخه; Zinc-air battery; Bubbles coalescence; Electromagnetic field; Bubble movement; Cycle life;
Keywords: زندگی چرخه; Succinonitrile additive; Capacity degradation; Cycle life; Lithium ion battery;
Keywords: زندگی چرخه; Lithium ion battery; Gel polymer electrolyte; Propylene carbonate; Safety; Cycle life;
Keywords: زندگی چرخه; Cycle life; Dendrite growth; Structure optimization; Electrolyte management; Magnetic field; Rechargeable zinc-air battery;
Keywords: زندگی چرخه; Lithium-ion battery; Fast charging; Energy density; Cycle life; Lithium plating; Temperature-dependent aging;
Keywords: زندگی چرخه; High energy density; Ni-rich materials; Modification; Cycle life; Safety; Lithium ion batteries;
Keywords: زندگی چرخه; Vanadium nitride; Spatially confined strategy; Supercapacitor; Volumetric capacitance; Cycle life;
Fast formation cycling for lithium ion batteries
Keywords: زندگی چرخه; Lithium-ion battery; Fast formation; Cycle life; Resistance; Full pouch-cell; Solid electrolyte interphase;
Keywords: زندگی چرخه; Lithium-sulfur batteries; electrolyte decomposition; failure mechanisms; cycle life; gas evolution and analysis;
Keywords: زندگی چرخه; Vanadium flow battery; Electrolyte; Cycle life; Capacity regeneration; On-line monitoring;
Keywords: زندگی چرخه; Lead acid battery; Negative plate; Grid surface modification; Polyaniline; Cycle life;
Reduction of capacity decay in vanadium flow batteries by an electrolyte-reflow method
Keywords: زندگی چرخه; Vanadium flow battery; Electrolyte; Reflow; Capacity decay; Cycle life; Rebalance;
Improving the cycle life of lead-acid batteries using three-dimensional reduced graphene oxide under the high-rate partial-state-of-charge condition
Keywords: زندگی چرخه; Lead-acid battery; Graphene; Porous structure; Carbon additives; Cycle life;
Keywords: زندگی چرخه; Lithium-ion battery; External pressure; Capacity fade; Power fade; Cell ageing; Cycle life;
Keywords: زندگی چرخه; Ternary hybrid nanocomposite; RGO-(RuO2/CNCs); specific capacitance; energy density; cycle life;
Keywords: زندگی چرخه; Sealed lead acid cell; State of charge; State of health; Electrochemical impedance spectroscopy; Cycle life;
Keywords: زندگی چرخه; Vanidium pentoxide; Sulphur-reduction; Rate capability; Flower-like; Nanoplate; Cycle life;
Keywords: زندگی چرخه; Aging; Plating; Graphite; Compression; Cycle life; Post mortem;
Keywords: زندگی چرخه; Cathode degradation; Blended cathode; Time-resolved X-ray diffraction; Overvoltage; Cycle life;
Keywords: زندگی چرخه; Carbon nanotubes; Hybrid composites; Asymmetric supercapacitors; Cycle life;
Keywords: زندگی چرخه; Supercapacitor; manganese oxide; nickel oxide; electrodeposition; cycle life;
Keywords: زندگی چرخه; Vanadium pentoxide; Plate-like; Tube-like; Rate capability; Specific capacity; Cycle life;
Keywords: زندگی چرخه; Charge cycling; Cycle life; Degradation; Depth of discharge; Li-ion cell; Impedance spectroscopy; Partial state of charge
Keywords: زندگی چرخه; Lithium-ion batteries; Capacity fade; Low discharge rate; Simulation; Cycle life
Keywords: زندگی چرخه; Particle filter; Batteries; Cycle life; Mathematical modeling; Tracking; Prediction;
Keywords: زندگی چرخه; Lithium ion battery; Silicon anodes; Silicon nanostructures; Porous silicon; Cycle life; SEI layer;
Keywords: زندگی چرخه; Electrolyte additives; Li-ion batteries; Propene sultone; Vinylene carbonate; Cycle life;
Keywords: زندگی چرخه; Negative electrode sheet; Lead-carbon battery; Carbon additive; Discharge capacity; Cycle life
Keywords: زندگی چرخه; Rechargeable zinc–manganese dioxide battery; Cycle life; Zn–MnO2 battery model; Capacity fade model; Film resistance
Keywords: زندگی چرخه; State-of-health; Lithium-ion battery; Cycle life; Battery ageing; Fast charging; Impedance spectroscopy;
Keywords: زندگی چرخه; Supercapacitor; Cyclic voltammetry; EIS; Cycle; Cycle life;
Keywords: زندگی چرخه; Lead acid battery; Nanometer tetrabasic lead sulfate; Effective lead dioxide conversion rate; Discharge specific capacity; Cycle life;
Keywords: زندگی چرخه; Lithium sulfur battery; Shuttle; Polysulfide; Cycle life; Electrolyte; Carbon nanotube
Keywords: زندگی چرخه; Gas-atomised alloys; Metal hydrides; Kinetics; Discharge capacity; Cycle life
Keywords: زندگی چرخه; Lithium-ion battery; Mechanical stress; Capacity fade; Cell aging; Surface film; Cycle life;
Keywords: زندگی چرخه; Lithium-ion battery; Series connection; Cycle life; Temperature difference; Battery pack capacity fade
Keywords: زندگی چرخه; Lithium ion battery; Electric vehicle; Capacity loss model; Cycle life; State of health;
Keywords: زندگی چرخه; Lead-acid battery; 4BS nano-rods; Electrochemical activity; Positive active material; Specific capacity; Cycle life;
Keywords: زندگی چرخه; Aging; Cycle life; High power cell; Hybrid vehicles; Lithium battery; Supercapacitor
Keywords: زندگی چرخه; Chemical-looping combustion; Cu-based oxygen carrier; Cycle life
Keywords: زندگی چرخه; Li-ion Batteries; Electric vehicles; Safety; Cycle life; Capacity fading; After-life;
The influence of treatment in a sulfur environment on the electrochemical performance of LiFePO4 as a cathode material for lithium-ion batteries
Keywords: زندگی چرخه; Lithium-ion battery; LiFePO4; Treatment in a sulfur environment; Specific capacity; Cycle life;
LiMn0.5Co0.5BO3 solid solution: Towards high performance cathode material for next-generation lithium-ion battery
Keywords: زندگی چرخه; LiMn0.5Co0.5BO3 solid solution; Enhanced capacity; Cycle life; Next generation Li - ion batteries;
Electrical behavior of overdischarge-induced internal short circuit in lithium-ion cells
Keywords: زندگی چرخه; Lithium-ion cell; Overdischarge; Internal short circuit; Depth of discharge; Cycle life;
Comparative study of Sn-doped Li[Ni0.6Mn0.2Co0.2-xSnx]O2 cathode active materials (x= 0-0.5) for lithium ion batteries regarding electrochemical performance and structural stability
Keywords: زندگی چرخه; Lithium ion battery; Ni-rich NMC; Cycle life; Thermal analysis; Cationic substitution; Tin;
Polymer lithium-garnet interphase for an all-solid-state rechargeable battery
Keywords: زندگی چرخه; Polymer interphase; Garnet electrolyte; Lithium rechargeable batteries; Cycle life;
The influence of conductive additives on the performance of a SiO/C composite anode in lithium-ion batteries
Keywords: زندگی چرخه; SiO/C anode; Lithium-ion battery; VGCF; Rate capabilities; Cycle life;
Improving cycle life of layered lithium transition metal oxide (LiMO2) based positive electrodes for Li ion batteries by smart selection of the electrochemical charge conditions
Keywords: زندگی چرخه; Li ion batteries; Positive electrodes; Capacity fade characteristics; Cycle life; Formation cycles; Improvement strategies;