Keywords: تیتانات لیتیم; Asymmetric hybrid supercapacitor; lithium-ion capacitor; sodium-ion capacitor; lithium titanate; ionic liquid; battery-supercapacitor hybrid;
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Keywords: تیتانات 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: تیتانات 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: تیتانات لیتیم; Layer-by-layer structuring; Spray printing; Lithium titanate; Lithium iron phosphate; Lithium-ion battery;
Keywords: تیتانات لیتیم; Porous materials; Lithium titanate; Energy storage and conversion; Lithium ion batteries; Thin films;
Electrochemical balancing of lithium-ion cells by nickel-based cells
Keywords: تیتانات لیتیم; Passive balancing; Battery system; Lithium iron phosphate; Lithium titanate; Nickel-metal hydride; Nickel-zinc;
Streamline three-dimensional thermal model of a lithium titanate pouch cell battery in extreme temperature conditions with module simulation
Keywords: تیتانات لیتیم; 3D thermal model; Extreme temperatures; Lithium titanate; Finite element analysis; Battery pack;
Keywords: تیتانات لیتیم; Lithium titanate; Titanium nitride; Supercapacitor; Capacitance;
Keywords: تیتانات لیتیم; Lithium-ion batteries; Anode material; Lithium titanate;
Keywords: تیتانات لیتیم; Lithium titanate; Sol-gel followed by urea-acetone technique; Thermal conductivity; Crush strength;
Keywords: تیتانات لیتیم; Lithium titanate; Carbon nanotubes; Lithium-ion batteries; Anode materials
Keywords: تیتانات لیتیم; Electric bus; Demand charge; Lithium titanate; Fast charging;
Keywords: تیتانات لیتیم; Lithium ion capacitor; Activated carbon; Power density; Energy density; Lithium titanate;
Keywords: تیتانات لیتیم; lithium titanate; nanofibers; carbon coating; graphene wrapping; diffusion coefficient;
Keywords: تیتانات لیتیم; Lithium titanate; Ferritic martensitic steel; Corrosion; TBM;
Keywords: تیتانات لیتیم; Graphene oxide; Lithium titanate; Capacity; Rate; Binder-free;
Keywords: تیتانات لیتیم; Lithium ion battery; Sodium ion battery; Lithium titanate; Nanorods
Keywords: تیتانات لیتیم; Lithium ion battery; Lithium titanate; Gassing; Electrolyte; Solid electrolyte interphase layer;
Keywords: تیتانات لیتیم; Lithium ion battery; Lithium titanate; Nanosheets; Hollow microspheres
Keywords: تیتانات لیتیم; Lithium titanate; Non-aqueous electrolyte; Solid electrolyte interphase layer; Methylene methanedisulfonate
Keywords: تیتانات لیتیم; Lithium titanate; graphene quantum dots; electrochemical performance; lithium ion battery
Keywords: تیتانات لیتیم; Battery; Start stop; Lithium manganese oxide; Lithium titanate; Reference electrode;
Keywords: تیتانات لیتیم; Lithium titanate; Nitrogen doped graphene; Titanium nitride; Anode material; Lithium battery;
Keywords: تیتانات لیتیم; Lithium titanate; Hydrogen reduction; Kinetics; Activation energy
Keywords: تیتانات لیتیم; Lithium iron phosphate; LiFePO4; Lithium titanate; Li4Ti5O12; Start-stop; Battery for vehicle;
Keywords: تیتانات لیتیم; Lithium-ion secondary battery; Lithium titanate; Thermal reactivity; State of charge;
Keywords: تیتانات لیتیم; Lithium titanate; Conducting network; Graphene sheets; Carbon coating;
Keywords: تیتانات لیتیم; Lithium-ion batteries; Lithium titanate; N-doped Carbon; Titanium nitride; Doping.
Keywords: تیتانات لیتیم; Packed fluidization; Multiphase system; Heat transfer; Effective thermal conductivity; Lithium titanate; Fusion;
Li4Ti5O12 nanosheets embedded in three-dimensional amorphous carbon for superior-rate battery applications
Keywords: تیتانات لیتیم; Lithium titanate; Nanosheets; Three-dimensional amorphous carbon; Hydrothermal process; Lithium ion batteries;
Zr-doped Li4Ti5O12 anode materials with high specific capacity for lithium-ion batteries
Keywords: تیتانات لیتیم; Lithium-ion battery; Lithium titanate; Zr-doped LTO; High specific capacity;
A facile electrochemical modification route in molten salt for Ti3+ self-doped spinel lithium titanate
Keywords: تیتانات لیتیم; Lithium titanate; Ti3+ self-doped; Electric modification; NaCl-KCl molten salt; Lithium-ion batteries;
Internal resistance and heat generation of soft package Li4Ti5O12 battery during charge and discharge
Keywords: تیتانات لیتیم; Lithium titanate; Lithium-ion battery; Swelling; Resistance; Heat generation;
Nitrogen-doped Li4Ti5O12/carbon hybrids derived from inorganic polymer for fast lithium storage
Keywords: تیتانات لیتیم; lithium ion batteries; lithium titanate; graphitic carbon nitride; titanium dioxide; solid state reaction;
Quantitative investigation of the gassing behavior in cylindrical Li4Ti5O12 batteries
Keywords: تیتانات لیتیم; Lithium titanate; Gassing behavior; Quantitative analysis; Solid electrolyte interface film; Lithium ion battery;
Gas swelling behaviour at different stages in Li4Ti5O12/LiNi1/3Co1/3Mn1/3O2 pouch cells
Keywords: تیتانات لیتیم; Lithium titanate; Pouch cell; X-ray absorption near edge; Gas swelling;
Preparation of Li2TiO3 ceramic with nano-sized pores by ultrasonic-assisted solution combustion
Keywords: تیتانات لیتیم; Lithium titanate; Solution combustion; Grain size; Crush load; Conductivity;
On the sol-gel synthesis mechanism of nanostructured Li3.95La0.05Ti4.95Ag0.05O12 with enhanced electrochemical performance for lithium ion battery
Keywords: تیتانات لیتیم; Sol-gel method; Chelating mechanism; Lithium titanate; Anode material; Li-ion battery;
Hierarchical Li4Ti5O12/C composite for lithium-ion batteries with enhanced rate performance
Keywords: تیتانات لیتیم; Lithium titanate; Carbon-modified; Rate performance; Lithium-ion batteries;
Li4Ti5O12 composited with Li2ZrO3 revealing simultaneously meliorated ionic and electronic conductivities as high performance anode materials for Li-ion batteries
Keywords: تیتانات لیتیم; Composite; Superficial doping; Lithium zirconate; Lithium titanate; Anode materials;
Elevated temperature performance of high voltage Li1+yMn1.5Ni0.5O4âxFx spinel in window-shifted Li-ion cells
Keywords: تیتانات لیتیم; High voltage cathode spinel; Li-ion; Window-shifted systems; High-temperature cycling stability; Lithium titanate; Titanium disulfide;
Bluish Li4Ti5O12 with enhanced rate performance
Keywords: تیتانات لیتیم; Oxygen vacancy; Lithium titanate; XPS; Lithium-ion diffusion coefficient; Electric conductivity;
The smart fabrication of interconnected microspheres constructed by Li4Ti5O12 regular nanosheets and their lithium storage properties
Keywords: تیتانات لیتیم; Crystal structure; Functional; Lithium titanate; Anode; Lithium-ion batteries;
Redox synthesis of poly (p-phenylenediamine)-reduced graphene oxide for the improvement of electrochemical performance of lithium titanate in lithium-ion battery anode
Keywords: تیتانات لیتیم; p-Phenylendiamine; Reduced graphene oxide; Lithium titanate; Anode material; Lithium ion battery;
Effects of post-calcination and mechanical pulverization on the electrochemical properties of nano-sized Li4Ti5O12 for hybrid capacitors
Keywords: تیتانات لیتیم; Li4Ti5O12; Lithium titanate; Post-calcination; Mechanical pulverization;
Enhanced lithium storage capability of Li4Ti5O12 anode material with low content Ce modification
Keywords: تیتانات لیتیم; Lithium-ion batteries; Lithium titanate; Cerium; Cerium dioxide; Electrochemical performance;
Facile synthesis of Ni/Li3Ti4NiCrO12 composites with enhanced cycle performance as lithium ion battery anode
Keywords: تیتانات لیتیم; Lithium ion battery; Metallic composites; Lithium titanate; Crystal structure; Anode;
Preparation of few-layer reduced graphene oxide-wrapped mesoporous Li4Ti5O12 spheres and its application as an anode material for lithium-ion batteries
Keywords: تیتانات لیتیم; Lithium titanate; Graphene; Mesoporous spheres; Anode; Lithium-ion batteries;
Synthesis of Li4Ti5O12 nanoclusters for lithium-ion batteries with excellent electrochemical performances
Keywords: تیتانات لیتیم; Lithium titanate; Nanocluster; Electrochemical performance; Lithium-ion batteries
Mesoporous Li4Ti5O12 nanoparticles synthesized by a microwave-assisted hydrothermal method for high rate lithium-ion batteries
Keywords: تیتانات لیتیم; Lithium titanate; Mesoporous; Nanoparticles; Electrochemical property; Lithium-ion batteries