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http://dx.doi.org/10.5855/ENERGY.2011.20.2.109

Li-Ion Traction Batteries for All-Electric Vehicle  

Cho, Mann (ReSEAT Program, Korea Institute of Science and Technology Information)
Nah, Do-Baek (Korea Institute of Science and Technology Information)
Kil, Sang-Chul (Korea Institute of Science and Technology Information)
Kim, Sang-Woo (Korea Institute of Science and Technology Information)
Publication Information
Journal of Energy Engineering / v.20, no.2, 2011 , pp. 109-122 More about this Journal
Abstract
The production capacity of EV models should be sufficient to achieve the goal of one million EVs by 2015. Large-Format lithium-ion battery are expected to find a prominent role as ideal electrochemical storage systems in traction power train for sustainable vehicles such as all-electric vehicles. This review focuses first on the present status of production lithium-ion battery technology and cooperative relations of between battery and EV makers, then on its near future development.
Keywords
Electric Vehicle; Lithium-ion Battery; Cathode; Anode; Solid State Electrolyte;
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1 Zhumabay Bakenov and Izumi Taniguchi, "Electrochemical Performance of Nanocomposite LiMnPO4/C Cathode Materials for Lithium Batteries", Electrochem. Commun., Volume 12, 2010.
2 弦 卷茂 등, "ポスト鐵オリビン系高性能リチウム二次電池の硏究開發", NEDO蓄電技術開發平成20年度成果報告會(平成21年 5月), https://app3.infoc.nedo.go.jp/gyouji/events/FA/nedoevent.2009-05-12.5433825802/NEDO4e887a3f96c6_s.pdf
3 弦 卷茂 등, "ポスト鐵オリビン系高性能リチウム二次電池の硏究開發", NEDO蓄電技術開發平成21年度成果報告會, 2010. 06.
4 M. Yasutomi, et al., GS Yuasa Technical Report 2009-6 Vol 6, No 1, pp21-26, DOE Energy Storage Annual Progress Report 2009, 156-159, 2010.
5 境哲男, "Liイオン二次電池の現狀と將來, Material Integration Vol. 23, No. 06, 2010.
6 http://techon.nikkeibp.co.jp/article/NEWS/20100422/182109/
7 Nanoscale Heterostructures for Low-Cost, High-Capacity Lithium-Ion Batteries, http://batt.lbl.gov/2010/
8 H. Kawamoto, "Trends of R&D on materials for High-power and Large-capacity Lithium -ion Batteries for Vehicles Applications", http://www.nistep.go.jp/achiev/ftx/eng/stfc/stt036e/qr36pdf/STTqr3603.pdf
9 NEDO蓄電技術開發平成20年度成果報告會(平成21年 5月), https://app3.infoc.nedo.go.jp/gyouji/events/FA/nedoevent.2009-05-12.5433825802/NEDO4e887a3f96c6_s.pdf
10 https://app3.infoc.nedo.go.jp/informations/koubo/other/FA/
11 M. M. Thackeray, et al, "Surface protected Lithium-Metal-Oxide Electrode", PAT, US2010/0190058A1, Jul. 29, 2010.
12 C. S. Johnson, Journal of Power Sources, 165, 559(2007).   DOI   ScienceOn
13 K. Tatsumi, "車載用リチウムイオン電池の開發動向", 近畿大學 工學部 硏究公開フォ一ラム2010", www.chugoku.meti.go.jp/event/sangakukan/h221029_pdf
14 DOE, 'One Million Electric Vehicles By 2015, February 2011 Status Report', 2011.
15 狩集浩志 : '價格崩壞의 車載用電池, 最新의 搭載例 續續', Nikkei Electronics 2011年 3月 7日號.
16 김재규, "일본의 리튬이온이차전지 시장 및 기술개발동향", KIEP 지역경제포커스, Vol. 4, No. 10, 2010년.
17 立川直樹, 獨古 薰, 渡邊正義, "イオン液體を用いたリチウム電池", 機能材料(日本), 30(6), 2010.
18 www.greencarcongress.com/2009/12/prieto-20091217.html
19 Jeffrey W. Long, Bruce Dunn, Debra R. Rolison, and Henry S. White (2009) Three-Dimensional Battery Architectures. Chem. Rev., 104 (10), pp 4463-4492 doi: 10.1021/cr020740l.   DOI
20 James M. Mosby and Amy L. Prieto, Direct Electrodeposition of Cu2Sb for Lithium-Ion Battery Anodes, J. Am. Chem. Soc., 130(32), 2008.
21 V. Borgel, et al., J. Power Sources, 189, 331(2009).   DOI   ScienceOn
22 松本 一, 等, 2009年 電池討論會講演要旨集, pp. 36(2009).
23 T. Tamura, et al., doi:10.1016/j.jpowsour, 2009.   DOI
24 J. Kim and A. Manthiram, J. Electrochem. Soc., 145, L53(1998).   DOI
25 A. Stephan and K.S.Nahm, Polymer, 47, 5952(2006).   DOI
26 T. Niitani, et al., J. Power Sources, 146, 386(2005).   DOI
27 金村 聖志, "全固體リチウムイオン二次電池の開發狀況と課題", 電氣化學および工業物理化學(Electrochemistry), 78(4), 2010.
28 N. Ohta, et al., Electrochem. Comm., 9, 1486(2007).   DOI
29 A. Sakuda, et al., Electrochemical and Solid State Letters, 11, A1(2008).   DOI
30 R. W. Hart, et al., Electrochemistry Communications, 5, 120, 2003.   DOI
31 浜野嘉昭, "ニッケル系正極活物質503LP", Materials Integration V.23, No. 6, 2010년.
32 中野雅繼, 齊藤光正, "リン系正極材料の特性改善と安全性", Materials Integration, V.23, No. 6, 2010년.
33 坂口善樹, "三井造船の低炭素被覆.LiFePO4正極材料(LCC)", Materials Integration, V.23, No. 6, 2010년.
34 石井義人, "日立化成のリチウムイオン電池カ一ボン負極材料", Materials Integration, V.23, No. 6, 2010년.
35 http://techon.nikkeibp.co.jp/article/NEWS/20101022/186757/
36 http://mainichi.jp/select/biz/nesw/20101010k0000e020001000c.html
37 http://techon.nkkei.co.jp/article/FEATURE/20100513/182577/
38 http://techon.nikkeibp.co.jp/article/NEWS/20101021/187615/
39 電氣自動車眞實の 特集, "2次電池のコストダウンヴ", Nikkei Monozukuri, Sep. 2009.
40 NEDO, "NEDO 二次電池技術開發ロ一ドマップ(Battery RM2010)", 2010년 5월, https://app3.infoc.nedo.go.jp/informations/koubo/other/FA/nedoothernews.2010-05-17.7840439413/Battery%20RM2010.pdf
41 Details on Nissan Leaf battery pack, including how recharging speed affects battery life by Sebastian Blanco (RSS feed) on May 27th 2010, http://green.autoblog.com/2010/05/27/detailson-nissan-leaf-battery-pack-including-how-recharging-sp/
42 車載用リチウムイオン2次電池で今, 何が起こっているのか, 日本經濟新聞, 전자판, 2010년.
43 SB LiMotive社, "PHEV用のLiイオン2次電池パックを公開", http://techon.nikkeibp.co.jp/article/NEWS/20101021/186715/
44 박재철, "Mirae Asset, 26 July 2010", 기업평가.
45 http://techon.nikkeibp.co.jp/article/NEWS/20101107/187187/
46 大澤康彦 等, "固溶體系正極材料(Li2MnO3-LiMO2)の硏究", Materials Integration, V.23, No. 6, 2010년.