Suppressing Irreversible Capacity in Low Cost Disordered Carbons for Li-Ion Batteries | Caballero A, Hernan L, Morales J, et al. | ELECTROCHEMICAL AND SOLID STATE LETTERS | 12 | 8 |
Multi-Walled Carbon Nanotube Paper Anodes for Lithium Ion Batteries | Landi BJ, Dileo RA, Schauerman CM, et al. | JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY | 9 | 6 |
Preparation and electrochemical performance for methanol oxidation of pt/graphene nanocomposites | Li YM, Tang LH, Li JH | ELECTROCHEMISTRY COMMUNICATIONS | 11 | 4 |
Electrochemical characterizations of Li2.6Co0.4N/Graphite anodes for lithium ion batteries | Liu DL, Du F, Pan WC, et al | MATERIALS LETTERS | 63 | 39876 |
Electrodeposition of cobalt from spent Li-ion battery cathodes by the electrochemistry quartz crystal microbalance technique | Garcia EM, Santos JS, Pereira EC, et al | JOURNAL OF POWER SOURCES | 185 | 1 |
Formation of flower-like carbon nanosheet aggregations and their electrochemical application | Shen JM, Feng YT | JOURNAL OF PHYSICAL CHEMISTRY C | 112 | 34 |
Energetic evaluation of possible insertion sites of Li into La3Ni2Sn7 using a first principle calculation | Imai Y, Watanabe A, Akimoto J, et al. | JOURNAL OF ALLOYS AND COMPOUNDS | 462 | 39815 |
Investigations on the modified natural graphite as anode materials in lithium ion battery | Zou L, Kang FY, Li XH, et al. | JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS(14 th international symposium on intercalation compounds (ISCIC 14), JUN 12-15,2007 seoul, south korea) | 69 | 5-6 |
New method to prepare graphite nanocomposites | Du XS, Yu ZZ, Dasari A, et al. | CHEMISTRY OF MATERIALS | 20 | 6 |
Direct growth of flexible carbon nanotube electrodes | Chen J, Minett AI, Liu Y, et al | ADVANCED MATERIALS | 20 | 3 |
Capacity improvement of mechanically and chemically treated Sri Lanka natural graphite as an anode material in Li-ion batteries | Balasooriya NWB, Touzain P, Bandaranayake PWSK | IONICS(3rd international conference on lonic devices, DEC 07- 09,2006 Anna Univ, Chennai, INDIA) | 13 | 5 |
Energetic evaluation of possible stacking structures of Li-intercalation in graphite using a first-principle pseudopotential calculation | Imai Y, Watanabe A | JOURNAL OF ALLOYS AND COMPOUNDS | 439 | 39815 |
Comparing the behavior of nano- and microsized particles of LiMn1.5Ni0.5O4 spinel as cathode materials for Li-ion batteries | Talyosef Y, Markovsky B, Lavi R, et al. | JOURNAL OF THE ELECTROCHEMICAL SOCIETY | 154 | 7 |
Urchin-like nano/micro hybrid anode materials for lithium ion battery | Zhang HL, Zhang Y, Zhang XG, et al | CARBON | 44 | 13 |
Lithium electrochemical intercalation into mechanically and chemically treated Sri Lanka natural graphite | Balasooriya NWB, Touzain P, Bandaranayake PWSK | JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS(13th international symposium on intercalation compounds (ISIC13),JUN 06-09,2005 Clermont Ferrand, FRANCE) | 67 | 5-6 Sp.Iss.Sl |
Balance between reversible and irreversible processes during lithium intercalation in graphite | Kulova TL, Skundin AM | RUSSIAN JOURNAL OF ELECTROCHEMISTRY | 42 | 3 |
Chemically derived nano-encapsulated tin-carbon composite anodes for Li-ion batteries | Kim IS, Kumta PN, Blomgren GE | DEVELOPMENTS IN SOLID OXIDE FUEL CELLS AND LITHIUM ION BATTERIES Book Series: CERAMIC TRANSACTIONS (106th Annual Meeting the American-Ceramic-Society, APR 18-21,2004 Indianapolis,IN | 161 | |
Synthesis of PMMA/inorganic nanoparticle/EG nanocomposite through reverse micelle template and its characterization | Mo ZL, Sun YX, Chen H, et al. | ACTA CHIMICA SINICA | 63 | 14 |
Gas desorption behavior of graphite anodes used for lithium ion secondary batteries | Yamauchi Y, Hino T, Ohzeki K, et al | CARBON | 43 | 6 |
Lithiation/delithiation performance of CU6Sn5 with carbon paper as current collector | Arbizzani C, Lazzari M, Mastragostino M | JOURNAL OF THE ELECTROCHEMICAL SOCIETY | 152 | 2 |
Electrochemistry of metals and semiconductors in fluoride media | Noel M, Suryanarayanan N | JOURNAL OF APPLIED ELECTROCHEMISTRY | 35 | 1 |
Heat-treatment of synthetic graphite under argon and effect on Li-ion electrochemistry | Takeuchi KJ, Marschilok AC, Davis SM, et al. | JOURNAL OF THE ELECTROCHEMICAL SOCIETY | 152 | 1 |
Electrochemical performances of Si-coated MCMB as anode material in lithium-ion cells | Xie J, Cao GS, Zhao XB | MATERIALS CHEMISTRY AND PHYSICS | 88 | 39847 |
Electrochemical performance studies of tin oxide prepared by sol-gel | Ma Y, Zhou DF, Zhang JP, et al | CHEMICAL RESEARCH IN CHINESE UNIVERSITIES | 20 | 5 |
Novel impact of short term aging on the electrochemistry of CO2 treated synthetic graphite | Takeuchi KJ, Marschilok AC, Davis SM, et al. | JOURNAL OF THE ELECTROCHEMICAL SOCIETY | 151 | 8 |
Electrochemistry of NaK2C12 in lithium-containing electrolytes and its use in lithium-ion cells | Tossici R, Antoine L, Janot R, et a | JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS(12th international symposium on intercalation compounds, jun01-05,2003 POZNAN,POLAND) | 65 | 2-3 |
Sn/C composite anodes for Li-ion batteries | Kim IS, Blomgren GE, Kumta PN | ELECTROCHEMICAL AND SOLID STATE LETTERS | 7 | 3 |
Electrochemical behavior of superdense 'LiC2' prepared by ballmilling | Tossici R, Janot R, Nobili F, et al. | ELECTROCHIMICA ACTA | 48 | 10 |