Pembuatan Lembaran Katoda LiFe0.7Mn0.2Ni0.1PO4 C dengan Variasi Suhu Pengeringan
DAFTAR PUSTAKA
Buchmann, I. 2001. Batteries in a Portable Worlds. Cadex Electronics Inch. New
York.
Delacourt, C., Levasseur,P.P., and Mosquelier, S. 2006. Size Effects on CarbonFree LiFePO4 Powders. The Key to
Superior
Energy Density
Electrochemical and Solid-State Letters. 9 (7): A352-A355.
Fadhel, A. 2009. Lithium Bis (Oxalato) Borate Based Electrolyte For Lithium Ion
Cells. Nort Carolina.
Gibson, R.F. 1994. Principles of Composite
Material Mechanics. McGraw-
hill.Inc. New York. Page.27-29.
Lawrence, H. 1992. Ilmu dan Teknologi Bahan. Edisi 5. Erlangga. Jakarta.
Linden, David. 2002. Handbook of Batteries. McGraw-Hill vol 1. New York.
Liu, G., Zheng, H., Song, X., Ridgeway, P., Kim, S., Minor, A., Deng, Y. and
Battaglia, V. 2009. Binder Interactions in the Electrodes of The LithiumIon Batteries. TFUG Conference : California.
Munshi, M.Z. 1995. Handbook of Solid State Batteries and Capacitors. Hal : 427444, 469-478
Nakanishi et al. 2004. Effect of Surface Treatment for Aluminium Foils on
Discharge Properties of Lithium Ion Battery. Product Research and
Development, Mitsubishi Aluminium Co. Japan
Nuffield, E.W. 1966. X-Ray Diffraction Methods. Wiley. New York.
Universitas Sumatera Utara
Ohzuku, T., Matoba, T., and Sawai, K. 1994. Direct Evidence of Ohanomalous
Expansion of Graphite-Negative Electrodes of First Charge by
Dilatomery. Journal of Power sources. 9: 73-77.
Padhi, A.K., Nanjundaswany , K.S. and Goodenough, J.B. 1997. Phospho olivenes as Positive-Electrode Materials for Rechargeable Lithium
Batteries. J. Electrochem. Soc. 144: 1188-1194
Park, M.Y., Zhang, X.C., Chung, M., Less, G.B., and Sastry, A.M. 2010. A
Review of Conduction Phenomena in Li-Ion Batteries. Journal of Power
Sources.195: 7904-7929.
Patel, K.K., Paulsen, M.J., and Desilvestro, J. 2003. Numerical Simulation of
Porous Networks in Relation to Battery Electrodes and Separators. Journal
of Power Sources.122: 144-152.
Prihandoko, B. 2008. Pemanfaatan Soda Lime Silica dalam Pembuatan Komposit
Elektrolit Baterai Lithium. [Disertasi]. Depok : Universitas Indonesia.
Sanusi, A. 2010. Synthesis and Characterization of LiMPO4 (M=Mn, Ni and Fe)
Olivine Materials. [Thesis]. Kuala Lumpur : University of Malaya
Subhan, A. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 untuk Bahan Anoda
Baterai Lithium Keramik. [Tesis]. Depok : Universitas Indonesia.
Triwibowo, J. 2011. Rekayasa Bahan LixTMnxFez (PO4)3 sebagai Katoda Solid
Polymer Battery (SPB) Lithium. [Tesis]. Depok : Universitas Indonesia.
Wang, J. 2000. Analytical Electrochemistry. Chapter 2. John Wiley & Sons. New
York.
Wakihara, M., Yamamoto. O. 1998. Lithium Ion Batteries Fundamentals and
Performance. Kondansha.Ltd. Japan.
Universitas Sumatera Utara
Buchmann, I. 2001. Batteries in a Portable Worlds. Cadex Electronics Inch. New
York.
Delacourt, C., Levasseur,P.P., and Mosquelier, S. 2006. Size Effects on CarbonFree LiFePO4 Powders. The Key to
Superior
Energy Density
Electrochemical and Solid-State Letters. 9 (7): A352-A355.
Fadhel, A. 2009. Lithium Bis (Oxalato) Borate Based Electrolyte For Lithium Ion
Cells. Nort Carolina.
Gibson, R.F. 1994. Principles of Composite
Material Mechanics. McGraw-
hill.Inc. New York. Page.27-29.
Lawrence, H. 1992. Ilmu dan Teknologi Bahan. Edisi 5. Erlangga. Jakarta.
Linden, David. 2002. Handbook of Batteries. McGraw-Hill vol 1. New York.
Liu, G., Zheng, H., Song, X., Ridgeway, P., Kim, S., Minor, A., Deng, Y. and
Battaglia, V. 2009. Binder Interactions in the Electrodes of The LithiumIon Batteries. TFUG Conference : California.
Munshi, M.Z. 1995. Handbook of Solid State Batteries and Capacitors. Hal : 427444, 469-478
Nakanishi et al. 2004. Effect of Surface Treatment for Aluminium Foils on
Discharge Properties of Lithium Ion Battery. Product Research and
Development, Mitsubishi Aluminium Co. Japan
Nuffield, E.W. 1966. X-Ray Diffraction Methods. Wiley. New York.
Universitas Sumatera Utara
Ohzuku, T., Matoba, T., and Sawai, K. 1994. Direct Evidence of Ohanomalous
Expansion of Graphite-Negative Electrodes of First Charge by
Dilatomery. Journal of Power sources. 9: 73-77.
Padhi, A.K., Nanjundaswany , K.S. and Goodenough, J.B. 1997. Phospho olivenes as Positive-Electrode Materials for Rechargeable Lithium
Batteries. J. Electrochem. Soc. 144: 1188-1194
Park, M.Y., Zhang, X.C., Chung, M., Less, G.B., and Sastry, A.M. 2010. A
Review of Conduction Phenomena in Li-Ion Batteries. Journal of Power
Sources.195: 7904-7929.
Patel, K.K., Paulsen, M.J., and Desilvestro, J. 2003. Numerical Simulation of
Porous Networks in Relation to Battery Electrodes and Separators. Journal
of Power Sources.122: 144-152.
Prihandoko, B. 2008. Pemanfaatan Soda Lime Silica dalam Pembuatan Komposit
Elektrolit Baterai Lithium. [Disertasi]. Depok : Universitas Indonesia.
Sanusi, A. 2010. Synthesis and Characterization of LiMPO4 (M=Mn, Ni and Fe)
Olivine Materials. [Thesis]. Kuala Lumpur : University of Malaya
Subhan, A. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 untuk Bahan Anoda
Baterai Lithium Keramik. [Tesis]. Depok : Universitas Indonesia.
Triwibowo, J. 2011. Rekayasa Bahan LixTMnxFez (PO4)3 sebagai Katoda Solid
Polymer Battery (SPB) Lithium. [Tesis]. Depok : Universitas Indonesia.
Wang, J. 2000. Analytical Electrochemistry. Chapter 2. John Wiley & Sons. New
York.
Wakihara, M., Yamamoto. O. 1998. Lithium Ion Batteries Fundamentals and
Performance. Kondansha.Ltd. Japan.
Universitas Sumatera Utara