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Y. Zongrong, L. Xuemei, Q. Yu, and L. Jie, Preparation and Characterization of Low-temperature Expandable Graphite, Materials Research Bulletin, 43, 2677 (2008).
DOI
ScienceOn
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S.-J. Park, K.-S. Kim, and J.-R. Lee, Thermal and Mechanical Interfacial Properties of Expanded Properties of Expanded Graphite Epoxy Composites, Korean Ind. Eng. Chem, 15(5), 493 (2004).
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3 |
S.-J. Park, and K.-S., Kim, A study on Oil Adsorption of Expanded Graphite, Korean Chem. Eng. Res., 42(3), 362 (2004).
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W.-C. Oh, Carbon Intercalation Compounds as a Carbon Alloy and Their Applications, Carbon Science, 2(1), 62 (2001).
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Y. M. Kang, M. S. Song, J. H. Kim, H. S. Kim, M. S. Park, and J. Y. Lee, A Study on the Charge-discharge Mechanism of as an Anode for the Li Ion Secondary Battery J. Power Sources, 50(18), 3667 (2005).
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6 |
B. J. Lee, and Y. B. Kwon, Oil Adsorption of Exfoliated Graphite Preparation by Direct Reaction between Gas and Graphite, Carbon Science, 2(1), 55 (2001).
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7 |
Park, S.-J., Kim, K.-S., and Hong, S.-K., "Preparation and Characterization of Expanded Graphite", HWAHAK KONGHAK, 41(63), 802-807 (2003).
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8 |
W.-C. Oh, and Y.-S. Ko, Preparation of Anode Material for Lithium Secondary Battery using Pitch-coated Graphite Residue Compounds, Carbon Letters, 8(3), 207 (2007).
DOI
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9 |
K. Takei, K. Ishihara, K. Kumai, T. Iwahori, K. Miyake, T. Nakatsu, N. Terada, and N. Arai, Performance of Large-scale Secondary Lithium Batteries for Electric Vehicles and Home-use Load-leveling Systems, J. Power Sources, 119-121, 887 (2003).
DOI
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10 |
T. Ryoichi, S. Kyoichi, and T. Tsutomu, Faradaic Adsorption of Li on Carbon: A Novel Concept for the Capacity of the Anode of the Li-ion Secondary Batteries, J. Power Sources, 81-82, 224 (1999).
DOI
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11 |
K.-H. Kwon, S.-H. Moon, M.-C. Kim, S.-M. Oh, and M.-S. Kim, Fabrication of Carbon Nanofiber/Graphite Electrodes for Lithium Ion Secondary Battery, J. Korean Oil Chemists' Soc., 20(2), 130-140 (2003).
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12 |
S.-H. Moon, W. Jin, T.-R. Kim, H.-S. Hahm, H.-S. Park, and M.-S. Kim, Performance of Graphite Electrode Modified by Acid Treatment for Lithium Ion Secondary Battery, J. Korean Oil Chemists' Soc., 22(2), 142-150 (2005).
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13 |
D.-Y. Park, Y.-S. Lim, and M.-S. Kim, Performance of Expanded Graphite as Anode Materials for High Power Li-ion Secondary Batteries, Carbon Letters, 11(4), 343 (2010).
DOI
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14 |
K. Adachi, H. Tajima, T. Hasimoto, and K. Kobayashi, Development of 16 kWh Power Storage System Applying Li-ion Batteries, J. Power Source, 119-121, 897 (2003).
DOI
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15 |
N., Yoshio, Lithium Ion Secondary Batteries; Past 10 years and the Future, J. Power Sources, 100, 101 (2001).
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