Advances in Chemical Engineering and Science

Advances in Chemical Engineering and Science

ISSN Print: 2160-0392
ISSN Online: 2160-0406
www.scirp.org/journal/aces
E-mail: aces@scirp.org
"Enhanced Electrochemical Properties of LiFePO4 as Positive Electrode of Li-Ion Batteries for HEV Application"
written by Christian M. Julien, Karim Zaghib, Alain Mauger, Henri Groult,
published by Advances in Chemical Engineering and Science, Vol.2 No.3, 2012
has been cited by the following article(s):
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[1] Recent advances in the design of cathode materials for Li-ion batteries
2020
[2] Synthesis and Characterization of Lithium Iron Phosphate Carbon Composite (LFP/C) using Magnetite Sand Fe3O4
2020
[3] Improving Electrochemical Stability and Low‐Temperature Performance with Water/Acetonitrile Hybrid Electrolytes
2019
[4] A Study of LiFePO4 Cathode Material With Carbon Nanomaterial Additives for Li-ion Batteries
2019
[5] PAni-coated LiFePO4 Synthesized by a Low Temperature Solvothermal Method
2019
[6] Characterization of LiFePO4 samples obtained by pulse combustion under various conditions of synthesis
2019
[7] Hybrid aqueous/non-aqueous electrolyte for safe and high-energy Li-ion batteries
Joule, 2018
[8] Magnetic phase investigations on fluorine (F) doped LiFePO4
Materials Research Express, 2018
[9] Recent progress and developments in lithium cobalt phosphate chemistry-Syntheses, polymorphism and properties
Journal of Power Sources, 2018
[10] Evidence for a pressure-induced spin transition in olivine-type triphylite
Physical Review B, 2018
[11] Fabrication of in operando, self-growing, core-shell solid electrolyte interphase on LiFePO4 electrodes for preventing undesirable high-temperature effects in Li-ion …
Electrochimica Acta, 2018
[12] Lithium loss in the solid electrolyte interphase: Lithium quantification of aged lithium ion battery graphite electrodes by means of laser ablation inductively coupled …
Journal of Power Sources, 2017
[13] Li4Ti5O12-based energy conversion and storage systems: Status and prospects
Coordination Chemistry Reviews, 2017
[14] Li 4 Ti 5 O 12-based energy conversion and storage systems: status and prospects
Coordination Chemistry Reviews, 2017
[15] Fe3P impurity phase in high-quality LiFePO4: X-ray diffraction and neutron-graphical studies
Ionics, 2017
[16] A MODELLING APPROACH TO UNDERSTAND CHARGE DISCHARGE DIFFERENCES IN THERMAL BEHAVIOUR IN LITHIUM IRON PHOSPHATE–GRAPHITE …
Electrochimica Acta, 2017
[17] Lithium loss in the solid electrolyte interphase: Lithium quantification of aged lithium ion battery graphite electrodes by means of laser ablation inductively coupled …
Journal of Power Sources, 2017
[18] Effect of vanadium doping on electrochemical properties of carbon coated nano lithium iron phosphate for high rate applications
Surface Engineering and Applied Electrochemistry, 2017
[19] A MODELLING APPROACH TO UNDERSTAND CHARGE DISCHARGE DIFFERENCES IN THERMAL BEHAVIOUR IN LITHIUM IRON PHOSPHATE–GRAPHITE …
Electrochimica Acta, 2017
[20] Polyanionic Compounds as Cathode Materials
Lithium Batteries, 2016
[21] Synthesis and study by FTIR, 31 P NMR and electrochemical impedance spectroscopy of vanadium zinc phosphate glasses prepared by sol–gel route
Journal of Non-Crystalline Solids, 2016
[22] Enhanced electrochemical performance of LiFePO4/C nanocomposites due to in situ formation of Fe2P impurities
Journal of Solid State Electrochemistry, 2016
[23] Characterization and comparison between lithium iron p hosphate and lithium-polymers batteries
Journal of Energy Storage, 2016
[24] Synthesis and study by FTIR, 31P NMR and electrochemical impedance spectroscopy of vanadium zinc phosphate glasses prepared by sol–gel route
Journal of Non-Crystalline Solids, 2016
[25] SINTESIS DAN KARAKTERISASI KOMPOSIT LITHIUM FERRO PHOSPHATE/GRAFITE DENGAN VARIASI FRAKSI BERAT GRAFITE MELALUI PROSES SOLID …
2016
[26] Development of scanning probe microscopy techniques for the study of lithium ion battery materials
2015
[27] Effect of different calcium salts and methods for triggering gelation on the characteristics of microencapsulated Lactobacillus plantarum LIP-1
RSC Advances, 2015
[28] Lithiumbatterien für stationäre und mobile Anwendungen: Benchmarking und experimentelle Umsetzung
Dissertation, 2015
[29] Very high power and superior rate capability LiFePO 4 nanorods hydrothermally synthesized using tetraglycol as surfactant
RSC Advances, 2015
[30] Olivine-Based Cathode Materials
Rechargeable Batteries, 2015
[31] Enhanced rate performance of multiwalled carbon nanotube encrusted olivine type composite cathode material using polyol technique
Journal of Power Sources, 2015
[32] Nanostrucured Lithium Iron Phosphate As Cathode Material For Lithium Ion-Batteries
Dissertation, 2014
[33] Effect of the stirring during the hydrothermal synthesis of C-LiFePO4
ECS Transactions, 2014
[34] Comparative Issues of Cathode Materials for Li-Ion Batteries
Inorganics, 2014
[35] Stirring effect in hydrothermal synthesis of nano C-LiFePO 4
Journal of Power Sources, 2014
[36] Surface modifications of electrode materials for lithium-ion batteries: status and trends
Ionics, 2014
[37] Stirring effect in hydrothermal synthesis of nano C-LiFePO4
Journal of Power Sources, 2014
[38] Advanced electrodes for high power Li-ion batteries
Materials, 2013
[39] Synthesis and characterization of olivine phosphate cathode material with different particle sizes for rechargeable lithium-ion batteries
Materials Chemistry and Physics, 2013
[40] Energie & Umwelt/Energy & Environment Band/Volume 275 ISBN 978-3-95806-071-5
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