Keywords: ابرخازن; Activated carbons; Extreme potentials; in situ Raman spectra; Porous morphology; Supercapacitor;
مقالات ISI ابرخازن (ترجمه نشده)
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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: ابرخازن; Supercapacitor; Electrode materials; Metal sulfides; Core-shell nanoarrays; Electrochemical performance;
Keywords: ابرخازن; PANI nanotube; Core-shell structure; Supercapacitor; In-situ polymerization; High cycle stability;
Keywords: ابرخازن; Supercapacitor; Fractional-order analysis; Electrical characterization; Constant-phase element; Impedance spectroscopy; Effective capacitance;
Keywords: ابرخازن; Three-dimensional graphene; Glucose assisted hydrothermal method; Supercapacitor; Hydrogen evolution reaction; Oxygen reduction reaction;
Keywords: ابرخازن; Nitrogen doped activated carbon; Supercapacitor; Cyclic stability; Impedance spectroscopy; Flexible device;
Keywords: ابرخازن; NiSi; Nanowires; Solid-phase diffusion control; FESEM; Supercapacitor;
Keywords: ابرخازن; Ilmenite; Leucoxene; Electrochemical capacitor; Supercapacitor;
Keywords: ابرخازن; Energy storage; Supercapacitor; Modeling; State estimation; Industrial applications;
Keywords: ابرخازن; Reduced graphene oxide; Electrodeposition; Supercapacitor; Nickel/cobalt layered double hydroxide; Nanosheets; Surfactant;
Keywords: ابرخازن; Hydrogen; Fuel cell; Control strategy; Fuel economy; Battery; Supercapacitor;
Keywords: ابرخازن; Polypyrrole; Graphene; Copper compounds; Composites; Supercapacitor;
Keywords: ابرخازن; Hybrid energy storage system; Battery; Supercapacitor; Electric vehicles; Regenerative braking;
Keywords: ابرخازن; Polymer; Carbon; Hollow microsphere; Supercapacitor; Doping;
Keywords: ابرخازن; Mango stone; Carbon materials; Hierarchical pores; Electrical properties; Supercapacitor;
Keywords: ابرخازن; Graphene; Supercapacitor; Energy storage materials; Carbonization;
Keywords: ابرخازن; Vertical graphene nanosheets; Wettability; Supercapacitor; Electrochemical capacitor;
Keywords: ابرخازن; Supercapacitor; Pore accessibility; Ion adsorption; Nanoporous carbon; Surface chemistry;
Keywords: ابرخازن; Gel polymer electrolytes; Ionic conductivity; Supercapacitor; Lithium ion battery;
Keywords: ابرخازن; Energy saving; Optimal speed profile; Metro; Urban railway; Stationary energy storage system; Supercapacitor; Optimization;
Keywords: ابرخازن; Supercapacitor; Asymmetric device; VS2 nanosheets; Iron-PANI; Energy storage;
Keywords: ابرخازن; Electrosynthesis; Supercapacitor; Composite; Polypyrrole; Vanadium oxide;
Keywords: ابرخازن; Fuel cell hybrid vehicle; Interleaved boost converter; Supercapacitor; Minimum time controller;
Keywords: ابرخازن; Harmful aquatic plant; Carbon materials; Porous materials; High stability; Supercapacitor;
Keywords: ابرخازن; Supercapacitor; Electrical double layer capacitor; Gel polymer electrolyte; Porous carbon; Magnesium ion; Electrochemical characterization;
Keywords: ابرخازن; Supercapacitor; Potentiodynamic; Specific capacitance; AC impedance;
Keywords: ابرخازن; Graphene; Li-ion hybrid supercapacitors; Supercapacitor; Lithium ion batteries; Carbon materials; Metal oxide; Nanocomposites;
Keywords: ابرخازن; Hierarchical structure; 3D graphene/TiO2; Supercapacitor;
Keywords: ابرخازن; Ionic liquid; Functionalized graphene oxide; Supercapacitor; POAP;
Keywords: ابرخازن; Charge management; Embedded systems; Energy harvesting; Battery; Supercapacitor;
Keywords: ابرخازن; Energy storage; Supercapacitor; Chromium nitride; Sputtering;
Keywords: ابرخازن; Porous graphene oxide; Film; Volumeric capacitance; Supercapacitor;
Keywords: ابرخازن; Titanium dioxide; Graphite oxide; Reduced graphite oxide; Supercapacitor;
Keywords: ابرخازن; Vanadium dioxide; Chemical vapor deposition; Atomic layer deposition; Smart-window; Lithium-ion battery; Supercapacitor;
Keywords: ابرخازن; ZnO nano-flakes; ZnO/CNFs composite; Electrospinning; Hydrothermal; Supercapacitor;
Keywords: ابرخازن; Polyaniline; Nanofiber; Graphene Oxide; Electrospinning; Supercapacitor; Specific capacitance;
Keywords: ابرخازن; Free-standing; Nanoparticle; Supercapacitor; High specific capacitance;
Keywords: ابرخازن; Graphene oxide; Zinc oxide; Precipitation; Supercapacitor; Electrode;
Keywords: ابرخازن; Molybdenum trioxide; Transition metal element; Dopant; Supercapacitor;
Keywords: ابرخازن; Graphene; nitrogen doping; graphene quantum dots; battery; supercapacitor; remediation;
Keywords: ابرخازن; Bamboo; Activation temperature; Supercapacitor; Energy storage;
Keywords: ابرخازن; Heterostructure; Hybridization; Supercapacitor; Carbonaceous materials; Redox materials; Doping;
Keywords: ابرخازن; Porous carbon; Supercapacitor; Micropore; Biomass; Hierarchical porous carbon; Electric double layer capacitor;
Keywords: ابرخازن; Supercapacitor; Carbon nanofibers; Pt nanoparticles; Oxygen reduction reaction; Pseudocapacitance;
Keywords: ابرخازن; Nanocomposite; Nanocellulose; Cellulose; Graphite; Supercapacitor; Electric double-layer capacitor;
Keywords: ابرخازن; Chitosan; Boron; Nitrogen; Doping; Supercapacitor;
Keywords: ابرخازن; Graphene; Carbon nanotube; Supercapacitor; Pore structure;
Keywords: ابرخازن; Regular polygon CuS nanoparticles; Supercapacitor; Cycle stability; Energy density;
Keywords: ابرخازن; MOF; metal-organic framework; SC; supercapacitor; CNT; carbon nanotubes; Rs; series resistance; Rct; charge transfer resistance; ES; energy density; Ps; power density; NPC; nano-porous carbon; BDAC; biowaste derived activated carbon; TMDs; transition meta
Keywords: ابرخازن; Multiwall carbon nanotubes; Functionalization; SiO2; Supercapacitor;