Pembuatan Lembaran Katoda LiFe0.9Ni0.1PO4 C Dengan Variasi Suhu Pengeringan
DAFTAR PUSTAKA
Afton Plastics. 2014. PVDF Material Properties Data Sheet.
Anies, dkk. 2011. Studi Awal Sintesis Material Katoda Lithium Besi Fosfat (LiFePO 4)
dengan Metode Solvotermal pada Konsentrasi Tinggi.Tangerang : Puspiptek
serpong
BASF Corporation. 2014. Safe Data Sheet N, N- Dimethylacetamide.
Deniard, P., Dulac, A.M., Rocquefelte, X., Grigorova V., Lebacq, O., Pasturel, A. 2004.
High Potential Positive Material for Lithium-ion Batteries : Transition Metal
Phosphates. Journal of Physics and Chemistry of Solids. 65: 229-223.
Gao, Yuan and Dahn J. R. 1996. Synthesis and characterization of Li1+xMn2-xO4 for
Lithium Ion Battery Application. Journal of the Electrochemical Society. ISSN
0013-4651.
Gunawan, Indra dkk. 2007. Pengaruh Penambahan Polilaktat Pada Kinerja Bahan
Katoda Komposit LiFePO4/C.Tangerang : Puspiptek Serpong.
Linden, David. 2002. Handbook of Batteries. McGraw-Hill vol 1.
Julien, Chistian. 2014. Comparative Issues of Cathode Materials for Li-ion Batteries.
Journal Inorganics 2014. 2: 132-154.
Matthews, F.L., Rawlings, RD. 1993. Composite Material Engineering And Science,
Imperial College Of Science. Technology And Medi-cine. London. UK.
Moretti, Arianna. 2013. Structural and Electrochemical Invertigations of Li-Ion Battery
Electrodes. Doctoral Thesis. University of Camerino.
Universitas Sumatera Utara
Padhi, A.K, Nanjundaswamy, K.S. and Goodenough J.B. 1997. Phospho-olivenes as
Positive-Electrode Materials for Rechargeable Lithium Batteries. Journal
Electrochem. Soc. 144 : 1188-1194.
Park, Myounggu. Zhang, Xiangchum. Chung, Myoungdo. 2010. A Review of
Conduction Phenomena in Li-ion Batteries. Journal of Power Sources. 195 :
7904-7929.
Prihandoko, B. 2008. Pemanfaatan Soda Lime Silica Dalam Pembuatan Komposit
Elektrolit Baterai Lithium. Disertasi. Universitas Indonesia: Depok.
Prihandoko, Bambang. 2010. Pembuatan Nanomaterial sebagai bahan komponen baterai
lithium. Jakarta : Pusat Penelitian Fisika ( P2F ) LIPI.
Qing, Rui et al. 2013. Synthesis of LiNixFe1-xPO4 Solid Solution as Cathode Materials
for Lithium Ion Batteries. Journal of Electrochimica Acta. 108 : 827-823
Rakhmawati, Sri. 2015. Sintesis Material Aktif Katoda LiFe0,9Ni0,1PO4 dengan
variasi pelapisan carbon dari tapioka. Medan : Universitas Sumatera Utara
Ritchie, A.G. 2001. Recent Development And Future Prospects For Lithium
Rechargeable Batteries. Journal of Power Sources. Vol 96 : 1 - 4.
Shin, H.C, Jang, H. 2006. Electrochemical Properties of Carbon Coated LiFePO4
Chatode Using Graphite, Carbon Black, and Acetylene Black. Korea Selatan :
Eco-Nano Research Center, Korean Institute of Science and Technology.
Subhan, Achmad. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 Untuk Bahan Anoda
Baterai Lithium Keramik. Thesis. Depok : Universitas Indonesia..
Universitas Sumatera Utara
Triwibowo, J. 2010. Perkembangan Rechargeable Litium Baterai dengan LiFePO4/C
sebagai Material Katoda Untuk Transportasi. Laporan Penelitian. Program
Intensif Ristek 2011. LIPI : Serpong.
Triwibowo, Joko. 2011. Rekayasa Bahan LixTMnxFez (PO4)3 sebagai Katoda Solid
Polymer Battery (SPB) Lithium. Tesis. Universitas Indonesia: Depok
Wang, J. 2000. Analytical Electrochemistry. Chapter 2. John Wiley & Sons.
Wigayati, Etty M. 2007. Pembuatan Senyawa LiMnO Untuk Elektroda Baterai Padat
Lithium. Pusat Penelitian Fisika (P2F) – LIPI. Tangerang.
Whittingham, M. Stanley. 2008. Material Challenges Facing Electrical Energy Strorage.
Department of Chemistry and Materials Science. State University of New York :
Binghamton.
Wolfenstine J, Allen J. 2005. Ni3+ / Ni2+ Redox Potential in LiNiPO4. Journal of Power
Source. 142 : 389-390.
Xu Wu, 2013. Dendrite-Free and High-Efficiency Rechargeable Lithium Metal
Batteries. The Electrochemical Society.
Xuguang Chemical. 2010. Data Sheet Acetylene Black. Xuguang Chemical : China.
Yang, Hui, Guorong V. Zhuang and Philip N. Ross, Jr.Thermal Stability of LiPF6 Salt
and Li-ion Battery Electrolytes Containing LiPF6. Berkeley : University of
California, Environmental Energy Technologies Division and Material Science
Division.
Yao, D. Yueping. 2003. Carbon Based Anode Materials Lithium Ion Batteries.
University of Wollongong: Institute for Superconducting & Electronic Materials.
Faculty of Engineering.
Universitas Sumatera Utara
Afton Plastics. 2014. PVDF Material Properties Data Sheet.
Anies, dkk. 2011. Studi Awal Sintesis Material Katoda Lithium Besi Fosfat (LiFePO 4)
dengan Metode Solvotermal pada Konsentrasi Tinggi.Tangerang : Puspiptek
serpong
BASF Corporation. 2014. Safe Data Sheet N, N- Dimethylacetamide.
Deniard, P., Dulac, A.M., Rocquefelte, X., Grigorova V., Lebacq, O., Pasturel, A. 2004.
High Potential Positive Material for Lithium-ion Batteries : Transition Metal
Phosphates. Journal of Physics and Chemistry of Solids. 65: 229-223.
Gao, Yuan and Dahn J. R. 1996. Synthesis and characterization of Li1+xMn2-xO4 for
Lithium Ion Battery Application. Journal of the Electrochemical Society. ISSN
0013-4651.
Gunawan, Indra dkk. 2007. Pengaruh Penambahan Polilaktat Pada Kinerja Bahan
Katoda Komposit LiFePO4/C.Tangerang : Puspiptek Serpong.
Linden, David. 2002. Handbook of Batteries. McGraw-Hill vol 1.
Julien, Chistian. 2014. Comparative Issues of Cathode Materials for Li-ion Batteries.
Journal Inorganics 2014. 2: 132-154.
Matthews, F.L., Rawlings, RD. 1993. Composite Material Engineering And Science,
Imperial College Of Science. Technology And Medi-cine. London. UK.
Moretti, Arianna. 2013. Structural and Electrochemical Invertigations of Li-Ion Battery
Electrodes. Doctoral Thesis. University of Camerino.
Universitas Sumatera Utara
Padhi, A.K, Nanjundaswamy, K.S. and Goodenough J.B. 1997. Phospho-olivenes as
Positive-Electrode Materials for Rechargeable Lithium Batteries. Journal
Electrochem. Soc. 144 : 1188-1194.
Park, Myounggu. Zhang, Xiangchum. Chung, Myoungdo. 2010. A Review of
Conduction Phenomena in Li-ion Batteries. Journal of Power Sources. 195 :
7904-7929.
Prihandoko, B. 2008. Pemanfaatan Soda Lime Silica Dalam Pembuatan Komposit
Elektrolit Baterai Lithium. Disertasi. Universitas Indonesia: Depok.
Prihandoko, Bambang. 2010. Pembuatan Nanomaterial sebagai bahan komponen baterai
lithium. Jakarta : Pusat Penelitian Fisika ( P2F ) LIPI.
Qing, Rui et al. 2013. Synthesis of LiNixFe1-xPO4 Solid Solution as Cathode Materials
for Lithium Ion Batteries. Journal of Electrochimica Acta. 108 : 827-823
Rakhmawati, Sri. 2015. Sintesis Material Aktif Katoda LiFe0,9Ni0,1PO4 dengan
variasi pelapisan carbon dari tapioka. Medan : Universitas Sumatera Utara
Ritchie, A.G. 2001. Recent Development And Future Prospects For Lithium
Rechargeable Batteries. Journal of Power Sources. Vol 96 : 1 - 4.
Shin, H.C, Jang, H. 2006. Electrochemical Properties of Carbon Coated LiFePO4
Chatode Using Graphite, Carbon Black, and Acetylene Black. Korea Selatan :
Eco-Nano Research Center, Korean Institute of Science and Technology.
Subhan, Achmad. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 Untuk Bahan Anoda
Baterai Lithium Keramik. Thesis. Depok : Universitas Indonesia..
Universitas Sumatera Utara
Triwibowo, J. 2010. Perkembangan Rechargeable Litium Baterai dengan LiFePO4/C
sebagai Material Katoda Untuk Transportasi. Laporan Penelitian. Program
Intensif Ristek 2011. LIPI : Serpong.
Triwibowo, Joko. 2011. Rekayasa Bahan LixTMnxFez (PO4)3 sebagai Katoda Solid
Polymer Battery (SPB) Lithium. Tesis. Universitas Indonesia: Depok
Wang, J. 2000. Analytical Electrochemistry. Chapter 2. John Wiley & Sons.
Wigayati, Etty M. 2007. Pembuatan Senyawa LiMnO Untuk Elektroda Baterai Padat
Lithium. Pusat Penelitian Fisika (P2F) – LIPI. Tangerang.
Whittingham, M. Stanley. 2008. Material Challenges Facing Electrical Energy Strorage.
Department of Chemistry and Materials Science. State University of New York :
Binghamton.
Wolfenstine J, Allen J. 2005. Ni3+ / Ni2+ Redox Potential in LiNiPO4. Journal of Power
Source. 142 : 389-390.
Xu Wu, 2013. Dendrite-Free and High-Efficiency Rechargeable Lithium Metal
Batteries. The Electrochemical Society.
Xuguang Chemical. 2010. Data Sheet Acetylene Black. Xuguang Chemical : China.
Yang, Hui, Guorong V. Zhuang and Philip N. Ross, Jr.Thermal Stability of LiPF6 Salt
and Li-ion Battery Electrolytes Containing LiPF6. Berkeley : University of
California, Environmental Energy Technologies Division and Material Science
Division.
Yao, D. Yueping. 2003. Carbon Based Anode Materials Lithium Ion Batteries.
University of Wollongong: Institute for Superconducting & Electronic Materials.
Faculty of Engineering.
Universitas Sumatera Utara