Structure Analysis of Li-ion Battery Using Neutron Beam Source |
Kim, Chang-Seob
(Department of chemistry, Korea University)
Park, Heon-Yong (Department of chemistry, Korea University) Liang, Lianhua (Department of chemistry, Korea University) Kim, Ji-Young (Department of chemistry, Korea University) Seong, Baek-Seok (KAIRI Hanaro) Kim, Keon (Department of chemistry, Korea University) |
1 | Shinichi Komaba, Kenichi Oikawa, Seung-Taek Myung, Naoaki Kumagai, and Takashi Kamiyama, Neutron powder diffraction studies of synthesized by the emulsion drying method, Solid State Ionics, 149, 47-52 (2002) DOI ScienceOn |
2 | D. Carlier, I. Saadoune, L Croguennec, M. Manatrier, E suard, and C. Delmas, On the metastable -type , Solid State Ionics, 144, 263-276 (2001) DOI ScienceOn |
3 | C. Bellitto, E. M. Bauer, G. Righini, M. A. Green, W. R Branford, A. Antonini, and M. Pasquali, The effect of doping spinel on its use as a cathode in Li-ion batteries: neutron diffraction and electrochemical studies, Journal of Physics and Chemistry of Solids, 65, 29-37 (2004) DOI ScienceOn |
4 | Won-Sub Yoon, Kyung-Keun Lee, Kwang-Bum Kim, Synthesis of using acrylic acid and its electrochemical properties for Li rechargeable batteries, Journal of Power Sources, 97-98, 303-307 (2001) DOI ScienceOn |
5 | Mineo Sato, Hirokazu Ohkawa, Kenji Yoshida, Mai Saito, Kazuyoshi Uematsu, and Kenji Toda, Enhancement of discharge capacity of by stabilizing the orthorhombic phase at room temperature, Solid State Ionics, 135, 137-142 (2000) DOI ScienceOn |
6 | Shinichi Komaba, Seung-Taek Myung, Naoaki Kumagai, Toru Kanouchi, Kenichi Oikawa, and Takashi Kamiyama, Hydrothermal synthesis of high crystalline orthorhombic as a cathode material for Li-ion batteries, Solid State Ionics, 152-153, 311-318 (2002) |
7 | Tracey E. Quine, Morven J. Duncan, A. Robert Atmstrong, Alastair D. Robertson, and Peter G. Bruce, Layered intercalation electrodes, Journal of Materials Chemistry, 10, 2838-2841 (2000) DOI |
8 | Yuka Ito, Yasushi Idemoto, Yuka Tsunoda, and Nobuyuki Koura, Relation between crystal structures, electronic structures, and electrode performances of (M=Ni, Zn)as a cathode active material for 4 V secondary Li batteries, Journal of Power Sources, 119-121, 733-737 (2003) DOI ScienceOn |
9 | Martin Lanz, Eberhard Lehmann, Roman Imhof, Ivan Exnar, and Petr Novak, In situ neutron radiography of lithium-ion batteries during charge/discharge cycling, Journal of Power source, 101, 177-181 (2001) DOI ScienceOn |
10 | C. Bellitto, M. G. DiMarco, W. R. Branford, M. A. Green, and D. A. Neumann, Cation distribution in Ga-doped , Solid State Ionics, 140, 77-81 (2001) DOI ScienceOn |
11 | D. Goers, M. Holzapfel, W. Scheifele, E. Lehmann, P. Vontobel, and P. Novak, In situ neutron radiography of lithium-ion batteries: the gas evolution on graphite electrodes during the charging, Journal of Power Sources, 130, 221-226 (2004) DOI ScienceOn |
12 | A. Robert Armstrong, Alastair D. Robertson, Robert Gitzendanner, and Peter G. Bruce, The Layered Intercalation Compounds :Positive Electrode Materials for Lithium+Ion Batteries, Journal of Solid State Chemistry, 145, 549-556 (1999) DOI ScienceOn |
13 | A. D. Robertson, L. Trevino, H. Tukamoto, and J. T. S. Irvine, New inorganic spinel oxides for use as negative electrode materials in future lithium-ion batteries, Journal of Power Sources, 81, 82, 352-357 (1999) DOI ScienceOn |
14 | Helena Herg, Hakan Rundlov, and John O. Thomas, The to - phase transition studied by in situ neutron diffraction, Solid State Ionics, 144, 65-69 (2001) DOI ScienceOn |
15 | Hikari Shigemura, Mitsuharu Tabuchi, Hironori Kobayashi, Hikari Sakaebe, Atsushi Hirano, and Hiroyuki Kageyama, Structural and electrochemical properties of solid solution as 5 V positive electrode materials for Li secondary batteries, Journal of Materials Chemistry, 12, 1882-1891 (2002) DOI ScienceOn |
16 | M. J. G. Jak, V. W. J. Verhoeven, I. M. de Schepper, F. M. Mulder, E. M. Kelder, and J. Schoonman, Neutron and X-ray scattering on Li-doped , Physica B, 266, 108-111 (1999) DOI ScienceOn |
17 | Shigeto Okada, Mizuki Ueno, Yasushi Uebou, and Jun-ichi Yamaki, Fluoride phosphate as a high-voltage cathode in Li-ion batteries, Journal of Power Sources, 146, 565-569 (2005) DOI ScienceOn |
18 | P. S. Whitfielda, I. J. Davidson, L. M. D. Cranswick, I. P. Swainson, and P. W. Stephens, Investigation of possible superstructure and cation disorder in the lithium battery cathode material using neutron and anomalous dispersion powder diffraction, Solid State Ionics, 176, 463-471 (2005) DOI ScienceOn |
19 | A. R. Armstrong, A. D. Robertson, and P. G. Bruce, Structural transformation on cycling layered cathode materials, Electrochimica Acta, 45, 285-294 (1999) DOI ScienceOn |
20 | A. Robert Armstrong, Robert Gitzendanner, Alastair D. Robertson and Peter G. Bruce, The intercalation compound as a positive electrode for rechargeable lithium batteries, Chem. Commun., 1833-1834 (1998) |