Keywords: ظرفیت برگشت پذیر; Ox horn; Reversible capacity; Superior; Nitrogen doping; Sodium ion batteries;
مقالات ISI ظرفیت برگشت پذیر (ترجمه نشده)
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Keywords: ظرفیت برگشت پذیر; Molybdenum oxyfluoride; Li-ion battery; Cathode; Atomic substitution; Reversible capacity;
Keywords: ظرفیت برگشت پذیر; Li-battery; Hematite; Reversible capacity; Nanoparticles
Keywords: ظرفیت برگشت پذیر; Phosphorus-doped tin oxide; Carbon nanofiber; Reversible capacity; Lithium-ion battery
Keywords: ظرفیت برگشت پذیر; Lithium vanadium oxide; Graphite; Reversible capacity; Cyclic stability;
Keywords: ظرفیت برگشت پذیر; Graphene; Fe3–xO4 raspberry shaped nanostructures; Fe3–xO4/graphene nanocomposites; Lithium-ion battery; Reversible capacity
Accordion-like nanoporous carbon derived from Al-MOF as advanced anode material for sodium ion batteries
Keywords: ظرفیت برگشت پذیر; Al-MOF; Nanoporous carbon materials; Reversible capacity; Sodium-ion batteries;
Synthesis and electrochemical performance of α-Fe2O3@carbon aerogel composite as an anode material for Li-ion batteries
Keywords: ظرفیت برگشت پذیر; α-Fe2O3; Carbon aerogel; Reversible capacity; Anode; Li-ion batteries;
Submicron silica as highâcapacity lithium storage material with superior cycling performance
Keywords: ظرفیت برگشت پذیر; Lithiumâion battery; Anode material; Silica; Reversible capacity; Cycling stability;
Anchoring iron oxide nanoparticles on polypyrrole/rGO derived nitrogen-doped carbon as lithium-ion battery anode
Keywords: ظرفیت برگشت پذیر; Fe2O3 anode; Nitrogen-doped carbon; Reversible capacity; Prolonged cycling life;
Modified coin cells to evaluate the electrochemical properties of solid-state fluoride-ion batteries at 150 °C
Keywords: ظرفیت برگشت پذیر; Electrode; Metal fluoride; Conversion reaction; Fluoride shuttle; Reversible capacity; Hermetical sealing;
Electrochemical studies of CNT/Si–SnSb nanoparticles for lithium ion batteries
Keywords: ظرفیت برگشت پذیر; Nanomaterials; SnSb; Silicon; Carbon nanotubes; Reversible capacity
Enhanced rate performance of multiwalled carbon nanotube encrusted olivine type composite cathode material using polyol technique
Keywords: ظرفیت برگشت پذیر; Polyol technique; Lithium iron phosphate; Multi-walled carbon nano tube; Reversible capacity
High-stability 5 V spinel LiNi0.5Mn1.5O4 sputtered thin film electrodes by modifying with aluminium oxide
Keywords: ظرفیت برگشت پذیر; Al2O3 Surface Modification; Pulsed laser deposition; Thermal Stability; Reversible capacity; Rate capability
ZnO-CoO Nanoparticles Encapsulated in 3D Porous Carbon Microspheres for High-performance Lithium-Ion Battery Anodes
Keywords: ظرفیت برگشت پذیر; ZnO-CoO nanoparticles; Porous carbon microsphere; Confinement effect; Lithium-ion batteries; Reversible capacity;
Tailoring of phase composition and morphology of TiO2-based electrode materials for lithium-ion batteries
Keywords: ظرفیت برگشت پذیر; TiO2 anatase; TiO2(b); Hydrothermal synthesis; Lithium ion batteries (LIB); Reversible capacity
Electrochemical performance and low discharge cut-off voltage behavior of ruthenium doped Li4Ti5O12 with improved energy density
Keywords: ظرفیت برگشت پذیر; Lithium titanate; Discharge voltage; Cycling stability; Reversible capacity; Anode materials
Microwave-assisted synthesis of SnS2/SnO2 composites by l-cysteine and their electrochemical performances when used as anode materials of Li-ion batteries
Keywords: ظرفیت برگشت پذیر; SnS2/SnO2 composites; Nanosheets; Microwave-assisted; Li-ion battery; Reversible capacity;
Electrochemical characteristics of spinel Li4Ti5O12 discharged to 0.01 V
Keywords: ظرفیت برگشت پذیر; Li4Ti5O12; Reversible capacity; Cycling stability; Rate performance; Discharge voltage; AB
Phosphides with zinc blende structure as anodes for lithium-ion batteries
Keywords: ظرفیت برگشت پذیر; InP; GaP; Anode; Lithium-ion battery; Reversible capacity; Zinc blende structure
Effects of the oxidation treatment with K2FeO4 on the physical properties and electrochemical performance of a natural graphite as electrode material for lithium ion batteries
Keywords: ظرفیت برگشت پذیر; Natural graphite; K2FeO4; Raman spectra; Reversible capacity; EIS