A framework for risk management and End-of-Life (EOL) analysis for nanotechnology products: A case study in lithium-ion batteries

IEEE International Symposium on Electronics and the Environment

Volumn , Issue , 2008, Pages

  Olapiriyakul, Sun ^a,b   Caudill, Reggie J ^a,b  

^a IEEE

^b NEW JERSEY INSTITUTE OF TECHNOLOGY   (United States)

Author keywords

Battery recycling; Environmental impact analysis; Nanomaterials; Nanotechnology; Recycling processes

Indexed keywords

BATTERY RECYCLING; CASE STUDIES; END-OF-LIFE; ENVIRONMENTAL IMPACT ANALYSIS; FILTRATION SYSTEMS; INTERNATIONAL SYMPOSIUM; LI- ION BATTERIES; LITHIUM IONS; LITHIUM-ION BATTERIES; MATERIAL ENGINEERING; NANOMATERIALS; NANOTECHNOLOGY; NANOTECHNOLOGY PRODUCTS; PROCESS ANALYSIS; PROCESS IMPROVEMENTS; PROCESS PARAMETERS; RECYCLING OPERATIONS; RECYCLING PROCESSES; WASTE STREAMS;

ELECTRONIC EQUIPMENT; ENGINEERING RESEARCH; ENVIRONMENTAL IMPACT; FINANCE; INSURANCE; IONS; LITHIUM; LITHIUM ALLOYS; LITHIUM BATTERIES; LITHIUM COMPOUNDS; NANOSTRUCTURED MATERIALS; POROUS MATERIALS; RECYCLING; RISK ANALYSIS; RISK ASSESSMENT; RISK MANAGEMENT; TECHNICAL PRESENTATIONS; TECHNOLOGY; WASTES;

PROCESS ENGINEERING;

EID: 51849112484     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/ISEE.2008.4562877     Document Type: Conference Paper

References (28)

1. http://www.sony.net/SonyInfo/News/Press/200502/05-006E/
2. C.K. Chan and et al., "High-performance lithium battery anodes using silicon nanowires," Nature Nanotechnology, vol. 3(1), pp. 31-35, Jan. 2008.
3. http://www.a123systems.com/
4. J. Peter, "Recharging EVs," Automotive Industries Al, vol. 185 (2), Feb. 2005.
5. "Altair's battery electrode materials," American Ceramic Society Bulletin, vol. 84, pp. 1, May. 2005.
6. V. A. Lifton, and S. Simon, "A novel battery architecture based on superhydrophobic nanostructured materials," 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings, pp. 726-729, 2005.
7. R.S. Treptow, "Lithium Batteries: A Practical Application of Chemical Principles," J. of Chem Education, vol. 80, pp. 1015-1020, Sep. 2003.
8. J.A. Isaacs, A. Tanwani, and M.L. Healy, "Environmental assessment of SWNT production," IEEE International Symposium on Electronics and the Environment, 2006, pp. 38-41.
9. V. Khannaa, B.R. Bakshi, and L.J. Lee, "Life Cycle Energy Analysis and Environmental Life Cycle Assessment of Carbon Nanofibers Production," Proceedings of the 2007 IEEE International Symposium on Electronics and the Environment, May 2007, pp. 128-133.
10. S.M. Lloyd, and L.B. Lave, "Life cycle economic and environmental implications of using nanocomposites in automobiles," Environmental Science and Technology, vol. 37 (15), pp. 3458-3466, Aug. 2003.
11. S.M. Lloyd, L.B. Lave, and H.S. Matthews, "Life cycle benefits of using nanotechnology to stabilize platinum-group metal particles in automotive catalysts," Environmental Science and Technology, vol. 39 (5), pp. 1384-1392, Mar. 2005.
12. A.R. Ko{combining square below}hler, C. Som, A. Helland, and F. Gottschalk, "Studying the potential release of carbon nanotubes throughout the application life cycle," Journal of Cleaner Prod, vol. 16 (8-9), pp. 927-937, May 2008.
13. S. Olapiriyakul and R.J. Caudill, "Quantitative Risk Assessment Approaches for Nanotechnology Products: A Case Study in Lithium-ion Batteries," NJIT Multi-lifecycle Engineering Research Center (MERC) Internal Report, May 2007.
14. P. H. M. Hoet, I. Bru{combining square below}ske-Hohlfeld, and O.V. Salata, "Nanoparticles-known and unknown health risks," Journal of Nanobiotechnology, vol. 2, pp. 15, Dec. 2004.
15. S. B. Lovern, J.R. Strickler, and R. Klaper, "Behavioral and physiological changes in Daphnia magna when exposed to nanoparticle suspensions (titanium dioxide, nano-C60, and C 60HxC70Hx)," Environmental Sci and Techn, vol. 41, pp. 4465-4470, June 2007.
16. G. Oberdo{combining square below}rster and et al., "Principles for characterizing the potential human health effects from exposure to nanomaterials: Elements of a screening strategy," Particle and Fibre Toxicology, vol. 2, no. 8, Oct. 2005.
17. Nel, T. Xia, L. Ma{combining square below}dler, and N. Li, "Toxic potential of materials at the nanolevel," Science, vol. 311 (5761), pp. 622-627, Feb. 2006.
18. Z. Chen and et al., "Acute toxicological effects of copper nanoparticles in vivo," Toxicology Letters, vol. 163 (2), pp. 109-120, May 2006.
19. Magrez and et al., "Cellular toxicity of carbon-based nanomaterials," Nano Letters vol. 6, pp. 1121-1125, June 2006.
20. M. L. Becker and et al., "Length-dependent uptake of DNA-wrapped single-walled carbon nanotubes," Advanced Materials vol. 19, pp. 939-945, Apr. 2007.
21. K. Donaldson and et al., "Carbon nanotubes: A review of their properties in relation to pulmonary toxicology and workplace safety," Toxicological Sciences vol. 92, pp. 5-22, July 2006.
22. S.C. Kim, M.S. Harrington, and D.Y.H. Pui, "Experimental study of nanoparticles penetration through commercial filter media," Journal of Nanoparticle Research, vol. 9(1), pp. 117-125, Jan. 2007.
23. C.S. Kim, L. Bao, K. Okuyama, M. Shimada, and H. Niinuma, "Filtration efficiency of a fibrous filter for nanoparticles," Journal of Nanoparticle Research, vol. 8(2), pp. 215-221, Apr. 2006.
24. K.H. Bauer, D. Huette, H.J. Lehmkuehler, and H. Schmauch, "Recycling of iron and steelworks wastes using the inmetco direct reduction process," MPT. Metallurgical plant and technology, vol.13 (4), pp. 7, 1990.
25. M.E. Schweers, J.C. Onuska, and R.K. Hanewald, "A pyrometallurgical process for recycling cadmium containing batteries," Proceedings of HMC-south'92, New Orleans, 1992, pp. 333-335.
26. M.-T. Wang, "Nano photocatalyst coating procedure," U.S. Patent 20050129853, June 16, 2005.
27. K. Lu, and Z.H. Jin, "Melting and superheating of low-dimensional materials," Current Opinion in Solid State and Materials Science, vol. 5(1), pp. 39-44, 2001.
28. Y.H. Wang, Y.N. Li, J. Lu, J.B. Zang, and H. Huang, "Microstructure and thermal characteristic of Si-coated multi-walled carbon nanotubes," Nanotechnology, vol. 17(15), no. 035, pp. 3817-3821, Aug. 2006.