Pengaruh Ketebalan Katoda LiFePO4 Terhadap Variasi Komposisi dan Ketebalan Anoda Mesocarbon Microbead (MCMB) pada Kapasitas Baterai Ion Lithium
DAFTAR PUSTAKA
Abdillah, Nur Himawan. 2008. Pembuatan Komposit Pelat Bipolar dengan
Matriks Polipropilena (PP) dengan Penguat Karbon dan Aditif
Polivinylidene Fluoride (PVDf). [Skripsi]. Depok : Universitas Indonesia.
BASF Corporation. 2014. Safe Data Sheet N, N- Dimethylacetamide.
Buchmann, I. 2001. Batteries in a Portable World. Cadex Electronics Inc.
Courtel, Fabrice M et al. 2011. Water Soluble Binders for MCMB Carbon Anodes
for Lithium Ion Batteries. Journal of Power Source. 196 : 2128 – 2134.
Gritzner, G., Kreysa, G. 1993. Nomenclature Symbols and Definitions in
Electrochemical Engineering. Journal Pure & Appl Chem. 65 : 1009-20
Hudaya, Chairul, Ph.D. 2011. Peranan Riset Baterai Sekunder dalam Mendukung
Penyediaan Energi Bersih Di Indonesia 2025. Proceeding Olimpiade Karya
Tulis Inovatif (OKTI).
Hossain, S. 1995. Handbook of Batteries. 2nd. New York : McGraw-Hill Inc.
Kawamoto, Hiroshi. 2010. Trends of R & D on Materials for High-power and
Large-capacity Lithium ion Batteries for Vehicles Applications. Journal
Science & Technology Trends. 36
Kim, K.J., J.H. Kim, M.S. Park, H.K. Kwon, H. Kim and Y.J. Kim et al. 2012.
Enhancement of Electrochemical and Thermal Properties of Polyethylene
Separators Coated with Polyvinylidene Fluoride Hexafluoropropylene
Copolymer for Li-Ion Batteries. Journal Power Source. 198 : 298–302.
Leite, E.R. 2007. Nanostructurd Materials for Electrochemical Energy Production
and Storage. Japan : Springer
Linden, David. 2002. Handbook of Batteries. New York : McGraw-Hill Inc.
Marom, R., S.F. Amalraj, N. Leifer, D. Jacob and D. Aurbach. 2001. A Review of
Advanced and Practical Lithium Battery Materials. Journal of Materials
Chemistry. 21 : 9938–9954.
Minami, T. 2005. Solid State Ionics For Batteries. Japan : University Gakuen-cho
Sakai.
Moretti, Ariana. 2010. Structural and Electrochemical Investigations of Li Ion
Battery Electrodes, Vanadium Doping of LiFePO4 Cathodes, Aqueous
Universitas Sumatera Utara
Binders for Anatase TiO2 Anodes. [Doctoral Thesis]. Camerino : University
of Camerino.
Munshi, M.Z.A. 1995. Handbook of Solid State Batteries & Capacitors.
hal : 427- 444 & 469-478.
MTI Corporation. 2010. MCMB (Mesocarbon Microbeads) Graphite Powder.
Material Safety Data Sheet.
Oswal, Mehul, Paul Jason and Runhua Zhao. 2010. A Comparative Study Of
Lithium Ion Batteries. California : University of Southern California.
Padhi, A.K., Nan Jundaswamy, K.S. and Goodenough, G.B. 2002. Phospo
Olivine as Positive-electrode Materials for Rechargeable Lithium Batteries.
Journal electrochemical Soc. 144 :1188 - 1194.
Patterson, Mary L, Ph.D. 2009. Anode Materials for Lithium Ion Batteries.
Enerdel : Indiana University Battery Workshop.
Prihandoko, Bambang. 2008. Pemamfaatan Soda Lime Silica dalam Pembuatan
Komposit Elektrolit Baterai Lithium. [Thesis]. Depok : Universitas
Indonesia, Program Pascasarjana.
Priyono, Slamet. 2014. Sintesis Serbuk Li4Ti5O12 yang Didoping Atom Al dan Na
untuk Anoda Baterai Ion Lithium. [Thesis]. Depok : Universitas Indonesia.
Recharge. 2013. Safety of Lithium Ion Batteries. Belgium : The European
Association for Advanced Rechargeable Batteries.
Rizki, Muhammad. 2014. Upaya Peningkatan Konduktifitas Listrik Katoda
LiFePO4 dengan Pelepasan Karbon Tepung Tapioka. [PKL]. Jakarta :
Universitas Islam Negeri Syarif Hidayatullah.
Shen, Chin Wei et al. 2014. Low Temperature Process Modified MCMB for
Litihium Ion Batteries. Journal Solid State Ionics. 268 : 282 : 287.
Shin, Ho Chul, Won II Cho and Ho Jang. 2006. Electrochemical Properties of
Carbon Coated LiFePO4 Chatode Using Graphite, Carbon Black, and
Acetylene Black. Journal Electrochimica Acta. 52 : 1472-1476.
Sloop, Steven E, J.K. Pugh, S. Wang, J.B. Kerr and K. Kinoshita. Reactivity of
Li-ion Battery Electrolytes. Journal Electrochem Solid State 4 A 42.
Subhan, Achmad. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 untuk Bahan
Anoda Baterai Lithium Keramik. [Thesis]. Depok : Universitas Indonesia.
Tarascon, et al. 2001. Issues and Challages Facing Rechargeable Lithium
Batteries. Nature.
Universitas Sumatera Utara
Triwibowo, Joko. 2011. Rekayasa Bahan LixTiMnyFez(PO4) sebagai Katoda Solid
Polimer Battery (SPB) Lithium. [Thesis]. Depok : Universitas Indonesia.
Warren, E. 1969. X-Ray Diffraction. Messach$ssetfs : Addittion-wesley pub.
Wu, Borong, Yonghuan Ren and Ning Li. 2011. LiFePO4 Cathode Material,
Electrical Vehicles The Benefits and Barriers. Beijing : School of Chemical
Engineering and Environment, Institute of Technology.
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,Yueping. 2003. Carbon Based Anode Materials Lithium Ion Batteries.
[Thesis]. University of Wollongong: Institute for Superconducting &
Electronic Materials, Faculty of Engineering.
Yoshio, Masaki, Ralph, J. Brodd and Akiya Kozawa. 2009. Lithium Ion Batteries
Science and Technologies. Japan : Springer.
Zakaria, 2003. Analisis Kandungan Mineral Magnetik pada Batuan Beku dari
Daerah Istimewe Yogyakarta dengan Metode X-Ray Diffiaction. [Skripsi].
Kendari : Fakultas Keguruan dan Ilmu Pendidikan Universitas Haluoleo.
Zhao, Rui, Jie Liu and Junjie Gu. 2015. The effects of electrode thickness on the
electrochemical and thermal characteristic of lithium ion battery. Applied
Energy. 139 : 220-229.
Zheng, Honghe, Jiang Li, Xiangyun Song, Gao Liu and Vincent S. Battaglia.
2012. A Comprehensive Understanding of Electroda Thickness Effects on
The Electrochemical Performance of Lithium ion Battery Cathodes. Journal
Electrochimica Acta. 71 : 258-265.
Zheng, et al. 2013. Surface and Structural Stabilities of Carbon Additives in High
Voltage Lithium Ion Batteries. Journal of Power Source. 227 : 211-217.
.http://www.targray.com/li-ion-battery/cathode-materials/foil.
http://www.chem-is-try.org/artikel_kimia/kimia_material/bergaul-dengan-baterailitium-bagian-2/
https://materialcerdas.wordpress.com/teori-dasar/scanning-electron-microscopy/
Universitas Sumatera Utara
Abdillah, Nur Himawan. 2008. Pembuatan Komposit Pelat Bipolar dengan
Matriks Polipropilena (PP) dengan Penguat Karbon dan Aditif
Polivinylidene Fluoride (PVDf). [Skripsi]. Depok : Universitas Indonesia.
BASF Corporation. 2014. Safe Data Sheet N, N- Dimethylacetamide.
Buchmann, I. 2001. Batteries in a Portable World. Cadex Electronics Inc.
Courtel, Fabrice M et al. 2011. Water Soluble Binders for MCMB Carbon Anodes
for Lithium Ion Batteries. Journal of Power Source. 196 : 2128 – 2134.
Gritzner, G., Kreysa, G. 1993. Nomenclature Symbols and Definitions in
Electrochemical Engineering. Journal Pure & Appl Chem. 65 : 1009-20
Hudaya, Chairul, Ph.D. 2011. Peranan Riset Baterai Sekunder dalam Mendukung
Penyediaan Energi Bersih Di Indonesia 2025. Proceeding Olimpiade Karya
Tulis Inovatif (OKTI).
Hossain, S. 1995. Handbook of Batteries. 2nd. New York : McGraw-Hill Inc.
Kawamoto, Hiroshi. 2010. Trends of R & D on Materials for High-power and
Large-capacity Lithium ion Batteries for Vehicles Applications. Journal
Science & Technology Trends. 36
Kim, K.J., J.H. Kim, M.S. Park, H.K. Kwon, H. Kim and Y.J. Kim et al. 2012.
Enhancement of Electrochemical and Thermal Properties of Polyethylene
Separators Coated with Polyvinylidene Fluoride Hexafluoropropylene
Copolymer for Li-Ion Batteries. Journal Power Source. 198 : 298–302.
Leite, E.R. 2007. Nanostructurd Materials for Electrochemical Energy Production
and Storage. Japan : Springer
Linden, David. 2002. Handbook of Batteries. New York : McGraw-Hill Inc.
Marom, R., S.F. Amalraj, N. Leifer, D. Jacob and D. Aurbach. 2001. A Review of
Advanced and Practical Lithium Battery Materials. Journal of Materials
Chemistry. 21 : 9938–9954.
Minami, T. 2005. Solid State Ionics For Batteries. Japan : University Gakuen-cho
Sakai.
Moretti, Ariana. 2010. Structural and Electrochemical Investigations of Li Ion
Battery Electrodes, Vanadium Doping of LiFePO4 Cathodes, Aqueous
Universitas Sumatera Utara
Binders for Anatase TiO2 Anodes. [Doctoral Thesis]. Camerino : University
of Camerino.
Munshi, M.Z.A. 1995. Handbook of Solid State Batteries & Capacitors.
hal : 427- 444 & 469-478.
MTI Corporation. 2010. MCMB (Mesocarbon Microbeads) Graphite Powder.
Material Safety Data Sheet.
Oswal, Mehul, Paul Jason and Runhua Zhao. 2010. A Comparative Study Of
Lithium Ion Batteries. California : University of Southern California.
Padhi, A.K., Nan Jundaswamy, K.S. and Goodenough, G.B. 2002. Phospo
Olivine as Positive-electrode Materials for Rechargeable Lithium Batteries.
Journal electrochemical Soc. 144 :1188 - 1194.
Patterson, Mary L, Ph.D. 2009. Anode Materials for Lithium Ion Batteries.
Enerdel : Indiana University Battery Workshop.
Prihandoko, Bambang. 2008. Pemamfaatan Soda Lime Silica dalam Pembuatan
Komposit Elektrolit Baterai Lithium. [Thesis]. Depok : Universitas
Indonesia, Program Pascasarjana.
Priyono, Slamet. 2014. Sintesis Serbuk Li4Ti5O12 yang Didoping Atom Al dan Na
untuk Anoda Baterai Ion Lithium. [Thesis]. Depok : Universitas Indonesia.
Recharge. 2013. Safety of Lithium Ion Batteries. Belgium : The European
Association for Advanced Rechargeable Batteries.
Rizki, Muhammad. 2014. Upaya Peningkatan Konduktifitas Listrik Katoda
LiFePO4 dengan Pelepasan Karbon Tepung Tapioka. [PKL]. Jakarta :
Universitas Islam Negeri Syarif Hidayatullah.
Shen, Chin Wei et al. 2014. Low Temperature Process Modified MCMB for
Litihium Ion Batteries. Journal Solid State Ionics. 268 : 282 : 287.
Shin, Ho Chul, Won II Cho and Ho Jang. 2006. Electrochemical Properties of
Carbon Coated LiFePO4 Chatode Using Graphite, Carbon Black, and
Acetylene Black. Journal Electrochimica Acta. 52 : 1472-1476.
Sloop, Steven E, J.K. Pugh, S. Wang, J.B. Kerr and K. Kinoshita. Reactivity of
Li-ion Battery Electrolytes. Journal Electrochem Solid State 4 A 42.
Subhan, Achmad. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 untuk Bahan
Anoda Baterai Lithium Keramik. [Thesis]. Depok : Universitas Indonesia.
Tarascon, et al. 2001. Issues and Challages Facing Rechargeable Lithium
Batteries. Nature.
Universitas Sumatera Utara
Triwibowo, Joko. 2011. Rekayasa Bahan LixTiMnyFez(PO4) sebagai Katoda Solid
Polimer Battery (SPB) Lithium. [Thesis]. Depok : Universitas Indonesia.
Warren, E. 1969. X-Ray Diffraction. Messach$ssetfs : Addittion-wesley pub.
Wu, Borong, Yonghuan Ren and Ning Li. 2011. LiFePO4 Cathode Material,
Electrical Vehicles The Benefits and Barriers. Beijing : School of Chemical
Engineering and Environment, Institute of Technology.
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,Yueping. 2003. Carbon Based Anode Materials Lithium Ion Batteries.
[Thesis]. University of Wollongong: Institute for Superconducting &
Electronic Materials, Faculty of Engineering.
Yoshio, Masaki, Ralph, J. Brodd and Akiya Kozawa. 2009. Lithium Ion Batteries
Science and Technologies. Japan : Springer.
Zakaria, 2003. Analisis Kandungan Mineral Magnetik pada Batuan Beku dari
Daerah Istimewe Yogyakarta dengan Metode X-Ray Diffiaction. [Skripsi].
Kendari : Fakultas Keguruan dan Ilmu Pendidikan Universitas Haluoleo.
Zhao, Rui, Jie Liu and Junjie Gu. 2015. The effects of electrode thickness on the
electrochemical and thermal characteristic of lithium ion battery. Applied
Energy. 139 : 220-229.
Zheng, Honghe, Jiang Li, Xiangyun Song, Gao Liu and Vincent S. Battaglia.
2012. A Comprehensive Understanding of Electroda Thickness Effects on
The Electrochemical Performance of Lithium ion Battery Cathodes. Journal
Electrochimica Acta. 71 : 258-265.
Zheng, et al. 2013. Surface and Structural Stabilities of Carbon Additives in High
Voltage Lithium Ion Batteries. Journal of Power Source. 227 : 211-217.
.http://www.targray.com/li-ion-battery/cathode-materials/foil.
http://www.chem-is-try.org/artikel_kimia/kimia_material/bergaul-dengan-baterailitium-bagian-2/
https://materialcerdas.wordpress.com/teori-dasar/scanning-electron-microscopy/
Universitas Sumatera Utara