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Hyeokjo Gwon, D. Seo, Sung-Wook Kim, Jongsoon Kim, K. Kang (2009)
Combined First‐Principle Calculations and Experimental Study on Multi‐Component Olivine Cathode for Lithium Rechargeable BatteriesAdvanced Functional Materials, 19
P. Bruce, B. Scrosati, J. Tarascon (2008)
Nanomaterials for rechargeable lithium batteries.Angewandte Chemie, 47 16
C. Doherty, R. Caruso, B. Smarsly, P. Adelhelm, C. Drummond (2009)
Hierarchically Porous Monolithic LiFePO4/Carbon Composite Electrode Materials for High Power Lithium Ion BatteriesChemistry of Materials, 21
Jongsoon Kim, Young‐Uk Park, D. Seo, Jinsoo Kim, Sung-Wook Kim, K. Kang (2011)
Mg and Fe Co-doped Mn Based Olivine Cathode Material for High Power CapabilityJournal of The Electrochemical Society, 158
M. Armand, J. Tarascon (2008)
Building better batteriesNature, 451
A. Salah, A. Mauger, K. Zaghib, J. Goodenough, N. Ravet, M. Gauthier, F. Gendron, C. Julien (2006)
Reduction Fe3+ of Impurities in LiFePO4 from Pyrolysis of Organic Precursor Used for Carbon DepositionJournal of The Electrochemical Society, 153
Seung‐Min Oh, S. Oh, C. Yoon, B. Scrosati, K. Amine, Yangfang Sun (2010)
High‐Performance Carbon‐LiMnPO4 Nanocomposite Cathode for Lithium BatteriesAdvanced Functional Materials, 20
D. Lepage, C. Michot, G. Liang, M. Gauthier, S. Schougaard (2011)
A soft chemistry approach to coating of LiFePO4 with a conducting polymer.Angewandte Chemie, 50 30
Young‐Uk Park, Jongsoon Kim, Hyeokjo Gwon, D. Seo, Sung-Wook Kim, K. Kang (2010)
Synthesis of Multicomponent Olivine by a Novel Mixed Transition Metal Oxalate Coprecipitation Method and Electrochemical CharacterizationChemistry of Materials, 22
Y. Lee, H. Yi, Woo-Jae Kim, K. Kang, Dong Yun, M. Strano, G. Ceder, A. Belcher (2009)
Fabricating Genetically Engineered High-Power Lithium-Ion Batteries Using Multiple Virus GenesScience, 324
Jongsoon Kim, D. Seo, Sung-Wook Kim, Young‐Uk Park, K. Kang (2010)
Mn based olivine electrode material with high power and energy.Chemical communications, 46 8
J. Barker, M. Saidi, Jeffrey Swoyer (2003)
Electrochemical Insertion Properties of the Novel Lithium Vanadium Fluorophosphate, LiVPO4 FJournal of The Electrochemical Society, 150
Huan Huang, S. Yin, T. Kerr, N. Taylor, Linda Nazar (2002)
Nanostructured Composites: A High Capacity, Fast Rate Li3V2(PO4)3/Carbon Cathode for Rechargeable Lithium BatteriesAdvanced Materials, 14
C. Kvarnström, H. Neugebauer, A. Ivaska, N. Sariciftci (2000)
Vibrational signatures of electrochemical p- and n-doping of poly(3,4-ethylenedioxythiophene) films: an in situ attenuated total reflection Fourier transform infrared (ATR-FTIR) study☆Journal of Molecular Structure, 521
M. Ren, Zhen Zhou, Xueping Gao, W. Peng, Jinping Wei (2008)
Core−Shell Li3V2(PO4)3@C Composites as Cathode Materials for Lithium-Ion BatteriesJournal of Physical Chemistry C, 112
C. Kvarnström, H. Neugebauer, S. Blomquist, H. Ahonen, J. Kankare, A. Ivaska (1999)
In situ spectroelectrochemical characterization of poly(3,4-ethylenedioxythiophene)Electrochimica Acta, 44
Young‐Uk Park, D. Seo, Byoungkoo Kim, K. Hong, Hyungsub Kim, Seongsu Lee, R. Shakoor, K. Miyasaka, J. Tarascon, K. Kang (2012)
Tailoring a fluorophosphate as a novel 4 V cathode for lithium-ion batteriesScientific Reports, 2
S. Nishimura, Megumi Nakamura, Ryuichi Natsui, A. Yamada (2010)
New lithium iron pyrophosphate as 3.5 V class cathode material for lithium ion battery.Journal of the American Chemical Society, 132 39
A. Cho, J. Son, V. Aravindan, Hyung-Bae Kim, K. Kang, W. Yoon, Wooseong Kim, Yun‐Sung Lee (2012)
Carbon supported, Al doped-Li3V2(PO4)3 as a high rate cathode material for lithium-ion batteriesJournal of Materials Chemistry, 22
Haidong Liu, Po Gao, Jian-hui Fang, Gang Yang (2011)
Li3V2(PO4)3/graphene nanocomposites as cathode material for lithium ion batteries.Chemical communications, 47 32
T. Drezen, N. Kwon, P. Bowen, I. Teerlinck, Motoshi Isono, I. Exnar (2007)
Effect of particle size on LiMnPO4 cathodesJournal of Power Sources, 174
Naoya Furuta, S. Nishimura, P. Barpanda, A. Yamada (2012)
Fe3+/Fe2+ Redox Couple Approaching 4 V in Li2–x(Fe1–yMny)P2O7 Pyrophosphate CathodesChemistry of Materials, 24
M. Yonemura, A. Yamada, Y. Takei, N. Sonoyama, R. Kanno (2004)
Comparative Kinetic Study of Olivine Li x MPO 4 ( M = Fe , Mn)Journal of The Electrochemical Society, 151
A. Wizansky, P. Rauch, F. Disalvo (1989)
Powerful oxidizing agents for the oxidative deintercalation of lithium from transition-metal oxidesJournal of Solid State Chemistry, 81
Kyusung Park, S. Schougaard, J. Goodenough (2007)
Conducting‐Polymer/Iron‐Redox‐ Couple Composite Cathodes for Lithium Secondary BatteriesAdvanced Materials, 19
Yonggang Wang, Yarong Wang, E. Hosono, Kaixue Wang, Haoshen Zhou (2008)
The design of a LiFePO4/carbon nanocomposite with a core-shell structure and its synthesis by an in situ polymerization restriction method.Angewandte Chemie, 47 39
Yaoqing Hu, M. Doeff, R. Kostecki, R. Fiñones (2004)
Electrochemical performance of Sol-Gel synthesized LiFePO{sub 4} in lithium batteriesJournal of The Electrochemical Society, 151
(2000)
PO 4 ) 3 , 13 wt% carbon, and 5 wt% PVDF. The fabrication process of the Li 3 V 2 (PO 4 ) 3 /carbon electrode was the same as that of the Li 3 V 2 (PO 4 ) 3 /PEDOT composite
A. Murugan, T. Muraliganth, A. Manthiram (2008)
Rapid microwave-solvothermal synthesis of phospho-olivine nanorods and their coating with a mixed conducting polymer for lithium ion batteriesElectrochemistry Communications, 10
The power capability of the NASICON‐type Li3V2(PO4)3 electrode is greatly improved by coating with PEDOT, that is, poly(3,4‐ethylenedioxythiophene), a conducting polymer. The Li3V2(PO4)3/PEDOT electrode delivers more than 90% of its theoretical capacity (133 mAh g−1) at a 10 C rate and 97% of this capacity is retained at this rate after 100 cycles. This remarkable power and cycle stability achieved by a simple coating process makes this 4 V‐class electrode one of the most promising electrode candidates for next‐generation batteries.
Advanced Energy Materials – Wiley
Published: Aug 1, 2013
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