Journal of Powder Materials (한국분말재료학회지)

The Korean Powder Metallurgy & Materials Institute (한국분말재료학회 (*구 분말야금학회))
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Overview and Future Concerns for Lithium-Ion Batteries Materials

리튬이온이차전지 소재의 산업동향 및 기술전망

  • Jung, Hang-Chul (Plant Engineering Center, Institute for Advanced Engineering (IAE)) ;
  • Kim, Geon-Hong (Plant Engineering Center, Institute for Advanced Engineering (IAE)) ;
  • Hong, Hyun-Seon (Plant Engineering Center, Institute for Advanced Engineering (IAE)) ;
  • Kim, Dong-Wan (Department of Materials Science & Engineering, Ajou University)
  • 정항철 (고등기술연구원 플랜트엔지니어링센터) ;
  • 김건홍 (고등기술연구원 플랜트엔지니어링센터) ;
  • 홍현선 (고등기술연구원 플랜트엔지니어링센터) ;
  • 김동완 (아주대학교 재료공학과)
  • Published : 2010.06.28
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References

  1. Institute for Information Technology Advancement,“secondary battery market trend”, IT Monitering Report (2009).
  2. R&DBIZ, “R&D trend of next generation battery”, KETI (2009).
  3. MCT net, “High performance Li ion secondary battery using hybrid electric vehicles”, KISTI (2007).
  4. C. H. Min and B. N. Kim: “Secondary battery industry”,Eugene Investment & Securities (2009).
  5. R&DBIZ, “Li ion secondary battery market trend”,KETI (2008).
  6. J. H. Kang: “Industrial trends & prospects of Li ion secondary battery”, KEXIM bank, 2009-14 (2009).
  7. Y. S. Lee and J. H. Jang: “Secondary battery”, Samsung Securities (2009).
  8. C. H. Park: “Market analysis & technical development road map”, KETI (2008).
  9. B. Y. Cho: “Secondary battery TRM”, KETI (2008).
  10. B. Y. Cho: “Next-generation growth engine secondary battery”, NICE, 22(4) (2004).
  11. C. H. Park: Trends in Metals & Materials Engineering,16(5) (2003).
  12. H. K. Oh: “Trend analysis for Li ion secondary battery”,KISTI (2005).
  13. William Tahil: “The Trouble with Lithium”, Meridian International Research (2006).
  14. William Tahil: “How Much Lithium does a LiIon EV battery really need?”, Meridian International Research(2010).
  15. K. S. Jung: “Extraction technology of dissolved marine resources”, KIGAM (2010).
  16. Resource Recycling R&D Center, Recyling white paper, Cheong Moon Gak (2009).
  17. J.-B. Kim: Trends Met. & Mater. Engineering, 21(2008) 34.
  18. S. M. Shin, S.-K. Kim, D.-H. Yang and J.-S. Sohn:Trends Met. & Mater. Engineering, 21 (2008) 26.
  19. Cobalt facts, Cobalt Supply & Demand 2009, Cobalt Development Institute (2010).
  20. H. S. Hong, S. Lee, G. H. Kim, T.-S. Kim, H.-Y. Kangand S.-J. Hong: J. Korean Powder Metall. Inst., 16(2009) 379 (Korean).
  21. KIGAM, “Recovery of Precious Metals from waste battery and materialization technology development”,Minister of Education, Science and Technology & Ministry of Environment (2003).
  22. J.-S. Sohn, S.-M. Shin, K.-S. Kang and M.-J. Choi: J. of Korean Inst. of Resource Recycling, 16 (2007) 50
  23. C. Hageluken: “Metals Recovery from e-scrap in a global environment” Umicore Cop. (2007).
  24. C. S. Choi: “Weekly market trends of rare metals”,Public Procurement Service (2009).
  25. K.-H. Park and C.-W. Nam: Trends Met. & Mater. Engineering, 21 (2008) 5.
  26. S. G. Kim: “Industry analysis of secondary battery”,Kiwoom Securities (2009).

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