Pengaruh Variasi Waktu Dan Suhu Pencampuran Serta Suhupengeringan Pada Lembar Katoda LiFePO4 Terhadap Kapasitasbaterai Ion Lithium
DAFTAR PUSTAKA
Anies.dkk. 2011. Studi Awal Sintesis Material Katoda Lithium Besi Fosfat
(LiFePO 4 ) dengan Metode Solvotermal pada Konsentrasi Tinggi. Tangerang
: Puspiptek serpong.
Armand, M., Tarascon, J.M. 2008.Building Better Batteries.Nature.451: 652657.
Buchmann, Isidor. 2001. Batteries in a Portable World. Cadex Electronics Inc.
Guan Wang, Yan Cheng, Manming Yan, Zhiyu Jiang. 2006. Li 0.99 FeTi 0.01 PO 4 /C
Composite as Cathode Material for Lithium Ion Battery.
H. Li, Y.-M. Chen, X.-T.Ma, J.-L.Shi, B.-K.Zhu, L.-P.Zhu, 2011. Gel Polymer
Electrolytes Based on Active PVDF Separator for Lithium Ion Battery. I:
Preparation and Property of PVDF (Polydimethyl Siloxane) Blending
Membrane, J. Membr. Sci 379 : 397–402.
Kartawidjaja. M, Abdurrochman. A, Rumeksa. E. 2008. Prosiding Seminar
Nasional Sains dan Teknologi-II 2008. Lampung: Universitas Lampung:
105-115.
Kahn, Bruce E., 2002, Hand Out Scanning Electron Microscope.
Kim, J.K., Choi, J.W., Chauhan, G.S., Ahn, J.H., Hwang, G,Ch., Choi,J.B., Ahn,
H.J., 2008. Enhancement of Electrochemichal Performance of Lithium Ion
Phospate by Controlled Sol-Gel Synthesis.Electrochemichal Acta. 55:
8258-8264.
Kittel, C., 1996. Introduction to Solid State Physics Seventh Edition.John Willey &
Sons. United States Of America.
Klug, H. P. & Alexander, L. E. 1974. X-ray Diffraction Procedures: for
Polycrystalline and Amorphous Materials. 2nd edn, Wiley, New York.
Lawrence H. Van Vlack. 1992. Ilmu dan Teknologi Bahan, Erlangga, edisi 5.
Linden, David. 2002. Handbook of Batteries. McGraw-Hill.
Universitas Sumatera Utara
Manjunatha, H; Suresh, G.S; Venkatesha, T.V,. 2011. Electrode Materials for
Aqueous
Rechargable
Lithium
Batteries.Journal
of
Solid
State
Electrochem.15, 431-445.
Myounggu, Park., Zang, X., Chung, M., Less, G.B., Sastry, A.M. 2010. A Review
Of Conduction Phenomena in Li-Ion Batteries. Journal of Power Source
Vol 195 hal 7904 – 7929.
Padhi, K., K.S. Nanjundaswamy, and J.B. Goodenough. 1997. Phospoolivine
as Positive Electrode Material for Rechargeable Lithium Batteries. J.
Electrochem. Soc 144:1189-1194.
Prihandoko, Bambang. 2007. Pemanfaatan Soda Lime Silica dalam Pembuatan
Komposit Elektrolit Baterai Lithium.Disertasi.Fakultas Teknik Universitas
Indonesia.
Priyono, Slamet. 2014. Sintesis Serbuk LI 4 TI 5 O 12 yang Didoping Atom Al dan Na
untuk Anoda Baterai Ion Lithium. Tesis.Depok : UI.
Smallman, R.E. dan Bishop, R.J., 2000.Metalurgi Fisik Modern dan Rekayasa
Material.Erlangga. Jakarta.
Subhan, A. 2011.Fabrikasi dan Karakterisasi Li 4 Ti 5 O 12 untuk Bahan Anoda
Baterai Lithium Keramik.Tesis.Depok :Universitas Indonesia.
Subhan, A. Dkk. 2014.Pengujian Serbuk Komersial LiFePO4 Sebagai Bahan
Aktif KatodaBaterai Lithium Untuk Mobil Listrik Nasional. Tanggerang
Selatan : LIPI.
S. Jouanneau, A. Le Gal La Salle, A. Verbaere., D. Guyomard M. Deschamps., S.
Lascaud., 2002, Journal of New Materials for Electrochemical Systems,
New Mg and Ca exchanged derivatives of Li1.1V3O8: Synthesis,
characterization andlithium insertion behavior, Laboratoire de Chimie des
Solides, J. New. Mat. Electrochem. Systems,p. 5, 191-196.
Thompson, Mitchell L. 2002. On the Material Properties and Constitutive
Equations of Piezoelectric Poly Vinylidene Fluoride (PVDF).Doctor of
Philosophy Thesis, Drexel University.
Triwibowo, Joko. 2011. Rekayasa Bahan Li x TiMn y Fe z (PO 4 ) 3 sebagai Katoda
Solid Polymer Battery (SPB) Lithium. Tesis.Depok : UI.
Universitas Sumatera Utara
Tsutomu Ohzuku, et al., 1995. Factor Affecting The Capacity Retention Of
Lithium-Ion Cells. J Power Sources, 54: 99-102.
Waluyo,
Hendro
dan
Noerochiem,
Lukman.2014.
Pengaruh
Temperatur
Hydrothermal terhadap Performa Elektrokimia LiFePO 4 sebagai Katoda
Baterai Ion Lithium Type Aqueous Elektrolit. Jurnal Teknik POMITS. Vol.
3, No. 2 : 2337-3539.
Xu, Bo, et. al. 2012 Rencent Progress in Cathode Materials Research for Advanced
Lithium Ion Batteries, Journal of Materials Science and Engineering R, 73,
51-65.
Yoshio, M. 2009. Lithium-Ion Batteries.Springer Science Bussines Media :
Japan.
Zhang, Y., Huo, Q., Du, P., Wang, L., Zhang, A., Song, Y., Lv, Y., Li, G., 2012.
Advances in
New Cathode Material
LiFePO4
for
Lithium Ion
Batteries.Synthetic Metals. Vol. 162 1315 – 1326.
http://en.wikipedia.org/wiki/Cathode. Diakses pada tanggal 23 Maret 2015.Pukul
11.00 WIB.
www.matweb.com Diakses pada tanggal 23 Maret 2015.Pukul 12.00 WIB.
Universitas Sumatera Utara
Anies.dkk. 2011. Studi Awal Sintesis Material Katoda Lithium Besi Fosfat
(LiFePO 4 ) dengan Metode Solvotermal pada Konsentrasi Tinggi. Tangerang
: Puspiptek serpong.
Armand, M., Tarascon, J.M. 2008.Building Better Batteries.Nature.451: 652657.
Buchmann, Isidor. 2001. Batteries in a Portable World. Cadex Electronics Inc.
Guan Wang, Yan Cheng, Manming Yan, Zhiyu Jiang. 2006. Li 0.99 FeTi 0.01 PO 4 /C
Composite as Cathode Material for Lithium Ion Battery.
H. Li, Y.-M. Chen, X.-T.Ma, J.-L.Shi, B.-K.Zhu, L.-P.Zhu, 2011. Gel Polymer
Electrolytes Based on Active PVDF Separator for Lithium Ion Battery. I:
Preparation and Property of PVDF (Polydimethyl Siloxane) Blending
Membrane, J. Membr. Sci 379 : 397–402.
Kartawidjaja. M, Abdurrochman. A, Rumeksa. E. 2008. Prosiding Seminar
Nasional Sains dan Teknologi-II 2008. Lampung: Universitas Lampung:
105-115.
Kahn, Bruce E., 2002, Hand Out Scanning Electron Microscope.
Kim, J.K., Choi, J.W., Chauhan, G.S., Ahn, J.H., Hwang, G,Ch., Choi,J.B., Ahn,
H.J., 2008. Enhancement of Electrochemichal Performance of Lithium Ion
Phospate by Controlled Sol-Gel Synthesis.Electrochemichal Acta. 55:
8258-8264.
Kittel, C., 1996. Introduction to Solid State Physics Seventh Edition.John Willey &
Sons. United States Of America.
Klug, H. P. & Alexander, L. E. 1974. X-ray Diffraction Procedures: for
Polycrystalline and Amorphous Materials. 2nd edn, Wiley, New York.
Lawrence H. Van Vlack. 1992. Ilmu dan Teknologi Bahan, Erlangga, edisi 5.
Linden, David. 2002. Handbook of Batteries. McGraw-Hill.
Universitas Sumatera Utara
Manjunatha, H; Suresh, G.S; Venkatesha, T.V,. 2011. Electrode Materials for
Aqueous
Rechargable
Lithium
Batteries.Journal
of
Solid
State
Electrochem.15, 431-445.
Myounggu, Park., Zang, X., Chung, M., Less, G.B., Sastry, A.M. 2010. A Review
Of Conduction Phenomena in Li-Ion Batteries. Journal of Power Source
Vol 195 hal 7904 – 7929.
Padhi, K., K.S. Nanjundaswamy, and J.B. Goodenough. 1997. Phospoolivine
as Positive Electrode Material for Rechargeable Lithium Batteries. J.
Electrochem. Soc 144:1189-1194.
Prihandoko, Bambang. 2007. Pemanfaatan Soda Lime Silica dalam Pembuatan
Komposit Elektrolit Baterai Lithium.Disertasi.Fakultas Teknik Universitas
Indonesia.
Priyono, Slamet. 2014. Sintesis Serbuk LI 4 TI 5 O 12 yang Didoping Atom Al dan Na
untuk Anoda Baterai Ion Lithium. Tesis.Depok : UI.
Smallman, R.E. dan Bishop, R.J., 2000.Metalurgi Fisik Modern dan Rekayasa
Material.Erlangga. Jakarta.
Subhan, A. 2011.Fabrikasi dan Karakterisasi Li 4 Ti 5 O 12 untuk Bahan Anoda
Baterai Lithium Keramik.Tesis.Depok :Universitas Indonesia.
Subhan, A. Dkk. 2014.Pengujian Serbuk Komersial LiFePO4 Sebagai Bahan
Aktif KatodaBaterai Lithium Untuk Mobil Listrik Nasional. Tanggerang
Selatan : LIPI.
S. Jouanneau, A. Le Gal La Salle, A. Verbaere., D. Guyomard M. Deschamps., S.
Lascaud., 2002, Journal of New Materials for Electrochemical Systems,
New Mg and Ca exchanged derivatives of Li1.1V3O8: Synthesis,
characterization andlithium insertion behavior, Laboratoire de Chimie des
Solides, J. New. Mat. Electrochem. Systems,p. 5, 191-196.
Thompson, Mitchell L. 2002. On the Material Properties and Constitutive
Equations of Piezoelectric Poly Vinylidene Fluoride (PVDF).Doctor of
Philosophy Thesis, Drexel University.
Triwibowo, Joko. 2011. Rekayasa Bahan Li x TiMn y Fe z (PO 4 ) 3 sebagai Katoda
Solid Polymer Battery (SPB) Lithium. Tesis.Depok : UI.
Universitas Sumatera Utara
Tsutomu Ohzuku, et al., 1995. Factor Affecting The Capacity Retention Of
Lithium-Ion Cells. J Power Sources, 54: 99-102.
Waluyo,
Hendro
dan
Noerochiem,
Lukman.2014.
Pengaruh
Temperatur
Hydrothermal terhadap Performa Elektrokimia LiFePO 4 sebagai Katoda
Baterai Ion Lithium Type Aqueous Elektrolit. Jurnal Teknik POMITS. Vol.
3, No. 2 : 2337-3539.
Xu, Bo, et. al. 2012 Rencent Progress in Cathode Materials Research for Advanced
Lithium Ion Batteries, Journal of Materials Science and Engineering R, 73,
51-65.
Yoshio, M. 2009. Lithium-Ion Batteries.Springer Science Bussines Media :
Japan.
Zhang, Y., Huo, Q., Du, P., Wang, L., Zhang, A., Song, Y., Lv, Y., Li, G., 2012.
Advances in
New Cathode Material
LiFePO4
for
Lithium Ion
Batteries.Synthetic Metals. Vol. 162 1315 – 1326.
http://en.wikipedia.org/wiki/Cathode. Diakses pada tanggal 23 Maret 2015.Pukul
11.00 WIB.
www.matweb.com Diakses pada tanggal 23 Maret 2015.Pukul 12.00 WIB.
Universitas Sumatera Utara