Keywords: باطری های قابل شارژ; Polyaniline; Chloride ion; Rechargeable batteries; Cathode materials; Electrochemistry;
مقالات ISI باطری های قابل شارژ (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: باطری های قابل شارژ; Lithium metal electrode; Three-dimensional current collector; Rechargeable batteries; Micro-fabrication; In situ;
Keywords: باطری های قابل شارژ; Rechargeable batteries; Ionic liquid electrolytes; Imidazolium; Alkyl ammonium; Li-ion batteries;
Keywords: باطری های قابل شارژ; 2D nanomaterials; Metal oxide; Lithium-ion battery; Rechargeable batteries; Sodium-ion battery;
Keywords: باطری های قابل شارژ; Iron sulfide; Rechargeable batteries; Crystal structure; Synthesis; Electrochemical performance;
Keywords: باطری های قابل شارژ; Polytriphenylamine derivative; Novel linear molecular structure; Two-electron redox characteristics; Rechargeable batteries; Electrochemical properties;
Keywords: باطری های قابل شارژ; Nanosilicon; Li-ion storage; Fundamental understanding; Rechargeable batteries;
Keywords: باطری های قابل شارژ; Portable batteries; Recycling; Batteries collection; Integrated batteries; Rechargeable batteries; WEEE;
Keywords: باطری های قابل شارژ; Energy storage; Rechargeable batteries; Technology assessment; Economics; Environment;
Keywords: باطری های قابل شارژ; Lithium–sulfur batteries; Lithium-ion batteries; Rechargeable batteries; Sulfur cathodes
Keywords: باطری های قابل شارژ; Li-ion batteries; Anode materials; Nano-structures; Rechargeable batteries;
Keywords: باطری های قابل شارژ; Sulfur; Cathode; Rechargeable batteries; Graphene;
Keywords: باطری های قابل شارژ; Rechargeable batteries; Cathode materials; Li1.5Na1.5V2(PO4)3/C; In-situ X-ray diffraction
Keywords: باطری های قابل شارژ; Iron phosphate; Thin film; Atomic layer deposition; Li-ion; Rechargeable batteries; Pseudocapacitance
Hierarchical polyhedron K2CoFe(CN)6 as promising cathode for rechargeable batteries
Keywords: باطری های قابل شارژ; Cathode; Hierarchical polyhedra; Structural optimization; Electrochemical properties; Rechargeable batteries;
Effect of lithium-site doping on enhancing the lithium storage performance of SrLi2Ti6O14
Keywords: باطری های قابل شارژ; SrLi2Ti6O14; Na doping; Anode material; Rechargeable batteries;
Perspectives for restraining harsh lithium dendrite growth: Towards robust lithium metal anodes
Keywords: باطری های قابل شارژ; Rechargeable batteries; Lithium metal anodes; Lithium dendrites; Solid electrolyte interphase; Composite nanostructured electrode;
Preparation of γ-LiV2O5 from polyoxovanadate cluster Li7[V15O36(CO3)] as a high-performance cathode material and its reaction mechanism revealed by operando XAFS
Keywords: باطری های قابل شارژ; Rechargeable batteries; Polyoxometalates; Vanadium oxides; X-ray absorption fine structure analyses;
Preparation and electrochemical performance of polymer-derived SiBCN-graphene composite as anode material for lithium ion batteries
Keywords: باطری های قابل شارژ; Polymer-derived ceramics; SiBCN/GN; Composite; Lithium-ion battery; Rechargeable batteries;
Improve the lithium storage performance of SrLi2Ti6O14 anode material by trivalent metal ion doping
Keywords: باطری های قابل شارژ; Rechargeable batteries; Lithium storage anode; Titanate; Trivalent ion doping; In-situ observation;
Electrosynthesis of poly(aniline-co-azure B) for aqueous rechargeable zinc-conducting polymer batteries
Keywords: باطری های قابل شارژ; Poly(aniline-co-azure B); Conducting polymers; Electrochemistry; Rechargeable batteries; Zinc;
Sodium-intercalated bulk graphdiyne as an anode material for rechargeable batteries
Keywords: باطری های قابل شارژ; Anode material; Rechargeable batteries; Graphdiyne; Density functional theory; Transition state barrier; Diffusion;
Transition metal dichalcogenide based nanomaterials for rechargeable batteries
Keywords: باطری های قابل شارژ; Transition metal dichalcogenides; MoS2; FeS2; Nanomaterials; Rechargeable batteries;
The electrochemical reactions of SnO2 with Li and Na: A study using thin films and mesoporous carbons
Keywords: باطری های قابل شارژ; Tin dioxide; Thin films; Mesoporous carbons; Na-ion anode; Rechargeable batteries;
Classification of discarded NiMH and Li-Ion batteries and reuse of the cells still in operational conditions in prototypes
Keywords: باطری های قابل شارژ; Reuse; Rechargeable batteries; Discard; Classification; Operational conditions;
Self-organized amorphous TiO2 nanotube arrays on porous Ti foam for rechargeable lithium and sodium ion batteries
Keywords: باطری های قابل شارژ; TiO2; Nanotube arrays; Titanium foam; Li-ion; Na-ion; Rechargeable batteries;
Structural changes of a Li/S rechargeable cell in Lithium Metal Polymer technology
Keywords: باطری های قابل شارژ; Rechargeable batteries; Lithium/sulfur; Polymer electrolyte; Polysulfides; Post-mortem; Structural evolution;
Unique properties of α-NaFeO2: De-intercalation of sodium via hydrolysis and the intercalation of guest molecules into the extract solution
Keywords: باطری های قابل شارژ; Iron oxides; Intercalation; Layered compounds; Rechargeable batteries
Process systems opportunities in power generation, storage and distribution
Keywords: باطری های قابل شارژ; Power generation; Power storage; Power distribution; Fuel cells; Wind turbines; Rechargeable batteries; Smart grids
Novel positive electrode architecture for rechargeable lithium/sulfur batteries
Keywords: باطری های قابل شارژ; Rechargeable batteries; Lithium/sulfur cells; Positive electrode morphology; Porous current collectors; Electrochemical performances
New insights into the limiting parameters of the Li/S rechargeable cell
Keywords: باطری های قابل شارژ; Rechargeable batteries; Lithium/sulfur; Sulfur pre-treatments; Electrochemical performance
A bilayer insertion of poly(oxymethylene-oxyethylene) into vanadium pentoxide xerogel: Preparation, characterization and insertion mechanism
Keywords: باطری های قابل شارژ; Layered structures; Ionically conductive polymers; Insertion; Lithium ion batteries; Rechargeable batteries; Nanocomposites
A large capacity of LiV3O8 cathode material for rechargeable lithium-based batteries
Keywords: باطری های قابل شارژ; Rechargeable batteries; Cathode materials; Large capacity; Stability; LiV3O8
A novel parameter for evaluation on power performance of Ni-MH rechargeable batteries
Keywords: باطری های قابل شارژ; Capacity quality; Capacity quality coefficient; Cycling capability; Rechargeable batteries;
Nano-NiOOH prepared by splitting method as super high-speed charge/discharge cathode material for rechargeable alkaline batteries
Keywords: باطری های قابل شارژ; NiOOH; Nanomaterials; Cathode; Rechargeable batteries
Structural characterization and electrochemical performance of lithium trivanadate synthesized by microwave sol–gel method
Keywords: باطری های قابل شارژ; Lithium trivanadate; Rechargeable batteries; Microwave sol–gel route; Cathode material; Electrochemical properties
Polyaniline as cathodic material for electrochemical energy sources: The role of morphology
Keywords: باطری های قابل شارژ; Polyaniline; Electrochemical supercapacitors; Rechargeable batteries; Cathodic material; Specific charge; Specific energy; Specific power
Paper-like free-standing polypyrrole and polypyrrole–LiFePO4 composite films for flexible and bendable rechargeable battery
Keywords: باطری های قابل شارژ; Free-standing film electrode; Electropolymerization; Polypyrrole; Polypyrrole–LiFePO4 composite; Rechargeable batteries
Effect of chalcogen substitution in mixed Mo6S8−nSen (n = 0, 1, 2) Chevrel phases on the thermodynamics and kinetics of reversible Mg ions insertion
Keywords: باطری های قابل شارژ; Magnesium electrochemistry; Rechargeable batteries; Chevrel phases; Mg intercalation; PITT; EIS
A series of spinel phase cathode materials prepared by a simple hydrothermal process for rechargeable lithium batteries
Keywords: باطری های قابل شارژ; Spinel; Hydrothermal reaction; LiMn2O4; Substitution; Rechargeable batteries