Pembuatan Baterai Lithium Menggunakan Bahan Aktif Mesocarbon Microbead (MCMB) Sebagai Anoda Dengan Variasi Persentase Berat Pelarut N,N-Dimethyl Acetamide (DMAC)
55
DAFTAR PUSTAKA
Aggrawal, R.K. et al. 2000. Effect Of Calcination Conditions of Self Sintering
Mesocarbon Microbeads on the Characteristic of Resulting Graphite.
Journal of Material Science 35: 5437-5442.
Courtel, F.M. et al. 2011. Water-Soluble Binders for MCMB Carbon Anodes for
Lithium Ion Batteries. Journal of Power Source 196: 2128-2134.
David. L. 1994. Handbook of Batteries. Second Edition. MC Graw Hill : New
York.
Eriksson, T. 2001. LiMn2O4 as a Li-Ion Battery Cathode From Bulk to Electrolyte
Interfase. [Disertasi]. Sweden : Uppsala University.
Fadhel, A. 2009. Lithium Bis (Oxalato) Borate Based Electrolyte For Lithium Ion
Cells. Nort Carolina.
G, Liu. Et al. 2007. Journal of The Electrochemical Society 154: A1129.
Gritzner, G. 1993.Symbol and Definition In Electrochemical Engineering. Pure &
Appl Chem. 65 : (009-20).
H, Zheng. et al. 2010. of The Electrochemical Society 157: A1060.
Honghe, Z. et al. 2012. A Comprehensive Understanding of Electrode Thickness
Effect on the Electrochemical Performance of Li-Ion Battery Cathode.
Electrochemica Acta . 71: 258-265.
Higuchi, H.et al. 1995. Porous Film, Process for Producing The Same and Use of
The Same. US Paatent. 5385.777.
Jun,Y.K. 2010. Plasma Modified Polyethilene Separator Membrance for Lithium
Ion Polymer Battery. Lithium Ion Battery. In Tech: China.
K. Tsunemi, et al. 1983. Electrochimica Acta . 591.
L. Buchmann. 2001. Batteries A Portable World. Cadex Electronistic.
Meng, Ying Shirley, et al. 2012. Recent Progress in Cathode Materials Research
for Advanced Lithium Ion Batteries. Material Science and Engineering .
R73: 51-65.
Mucklis, F. 2015. Sejarah dan Teknologi Pesawat Solar Impluse 2.
Ashimima.com. Diakses 18 Agustus 2015.
Universitas Sumatera Utara
56
M. Wakihara. 2001. Material Science and Engineering. R33: 109.
Ogumi, Z. 2009. Carbon Anode Material. Department of Energy and Hydrocarbon
Chemistry, Kyoto University : Japan.
Oswal, M et al. 2010. A Comparative Study of Lithium-Ion Batteries. University
of Southern : California.
Shen.Chin.W, et al. 2014. Low Temperature Process Modified MCMB for
Lithium Ion Batteries. Solid State Ionics. 268: 282-287.
Subhan, A. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 untuk Bahan Anoda
Baterai Lithium Keramik. [Tesis]. Depok : Universitas Indonesia.
Siti, M. 2010. Metode Pemisaha dan Analisa Kimia. Universitas Negeri
Yogyakarta: Yogyakarta.
Xiao, A., et al. 2006. Thermal Reactions of Mesocarbon Microbeads (MCMB)
Particlel in LiPF6 – based electrolite. Journal of Power Sourcer . 162: 12821288.
Yao, Y. 2003. Carbon Based Anode Materials for Lithium- Ion Battery. [Thesis].
China : University of Wolongong.
Yoshio, M. 2009. Lithium-Ion Batteries. Springer Science Bussines Media :
Japan.
Universitas Sumatera Utara
DAFTAR PUSTAKA
Aggrawal, R.K. et al. 2000. Effect Of Calcination Conditions of Self Sintering
Mesocarbon Microbeads on the Characteristic of Resulting Graphite.
Journal of Material Science 35: 5437-5442.
Courtel, F.M. et al. 2011. Water-Soluble Binders for MCMB Carbon Anodes for
Lithium Ion Batteries. Journal of Power Source 196: 2128-2134.
David. L. 1994. Handbook of Batteries. Second Edition. MC Graw Hill : New
York.
Eriksson, T. 2001. LiMn2O4 as a Li-Ion Battery Cathode From Bulk to Electrolyte
Interfase. [Disertasi]. Sweden : Uppsala University.
Fadhel, A. 2009. Lithium Bis (Oxalato) Borate Based Electrolyte For Lithium Ion
Cells. Nort Carolina.
G, Liu. Et al. 2007. Journal of The Electrochemical Society 154: A1129.
Gritzner, G. 1993.Symbol and Definition In Electrochemical Engineering. Pure &
Appl Chem. 65 : (009-20).
H, Zheng. et al. 2010. of The Electrochemical Society 157: A1060.
Honghe, Z. et al. 2012. A Comprehensive Understanding of Electrode Thickness
Effect on the Electrochemical Performance of Li-Ion Battery Cathode.
Electrochemica Acta . 71: 258-265.
Higuchi, H.et al. 1995. Porous Film, Process for Producing The Same and Use of
The Same. US Paatent. 5385.777.
Jun,Y.K. 2010. Plasma Modified Polyethilene Separator Membrance for Lithium
Ion Polymer Battery. Lithium Ion Battery. In Tech: China.
K. Tsunemi, et al. 1983. Electrochimica Acta . 591.
L. Buchmann. 2001. Batteries A Portable World. Cadex Electronistic.
Meng, Ying Shirley, et al. 2012. Recent Progress in Cathode Materials Research
for Advanced Lithium Ion Batteries. Material Science and Engineering .
R73: 51-65.
Mucklis, F. 2015. Sejarah dan Teknologi Pesawat Solar Impluse 2.
Ashimima.com. Diakses 18 Agustus 2015.
Universitas Sumatera Utara
56
M. Wakihara. 2001. Material Science and Engineering. R33: 109.
Ogumi, Z. 2009. Carbon Anode Material. Department of Energy and Hydrocarbon
Chemistry, Kyoto University : Japan.
Oswal, M et al. 2010. A Comparative Study of Lithium-Ion Batteries. University
of Southern : California.
Shen.Chin.W, et al. 2014. Low Temperature Process Modified MCMB for
Lithium Ion Batteries. Solid State Ionics. 268: 282-287.
Subhan, A. 2011. Fabrikasi dan Karakterisasi Li4Ti5O12 untuk Bahan Anoda
Baterai Lithium Keramik. [Tesis]. Depok : Universitas Indonesia.
Siti, M. 2010. Metode Pemisaha dan Analisa Kimia. Universitas Negeri
Yogyakarta: Yogyakarta.
Xiao, A., et al. 2006. Thermal Reactions of Mesocarbon Microbeads (MCMB)
Particlel in LiPF6 – based electrolite. Journal of Power Sourcer . 162: 12821288.
Yao, Y. 2003. Carbon Based Anode Materials for Lithium- Ion Battery. [Thesis].
China : University of Wolongong.
Yoshio, M. 2009. Lithium-Ion Batteries. Springer Science Bussines Media :
Japan.
Universitas Sumatera Utara