Sintesis Material Aktif Katoda LiFe0.9-xMnxNi0.1PO4 C Konsentrasi Mn 0 ≤ x≤ 0.2
40
DAFTAR PUSTAKA
Abbas,Askamal.1997.Pengembangan Material Untuk Baterai Padat dengan
Elektrolit Berbasis Senyawa Perak,Serpong.
A.Veluchanny,et al.2011. Boron Substitued Manganese Spinel
Cathode for
Lithium Ion Battery. Solid state ionic.
Celine,Widjojo.2010. Pembuatan dan Karakterisasi LiFePO4/Soda Lime Silica
Sebagai Bahan Katoda Pada Baterai Lithium. Institut Fur Gesteinhutten
Kunde RWTH Acchen Germany.
Chunfu,Lin. 2014. Li4Ti5O12 Based Anode Materials For High Power Lithium Ion
Batteries, Singapura.National University of Singapore.
H.A,Kiehne.1989. Batterry Technology Handbook. Federal Republic of Jerman.
Hongbo,shu et al.2013. Improved Electrochemical Performance of LiFePO4/C
Cathode Via Ni and Mn Co-doping Lithium-ion Batteries.
Jin,B.and
Jiang.Q.
2009.
Lithium
Batteries
Research
Technology
and
Applications: LiFePO4 Cathode Materials for Lithium-ion Batteries. Nova
Science Publisher.
Koseva,N.V, et al.2011. Synthesis of LixMn2O4 Cathoda Material for Lithium
Batteries. Journal of Mechanochemical, Institute of solid state chemistry,
Rusia.
Linden,David.1994. Handbook of Batteries. Mc Graw Hill.Second edition.
Manjhunata,H.et al.2010. Electrode Materials for Equeus Rechargable Lithium
Batteries. Journal of American chemical society.
Minami,Tsutomo dkk.2005. Solid State Ionics for Batteries. Japan : Osaka
Prefecture University.
Myounggu,Park.2010. A Review of Conduction Phenomena in Li-ionBatteries,
Power source.
Prihandoko,Bambang.2007. Pemanfaatan Soda Lime Silica dalam Pembuatan
Komposit Elektrolit Baterai Lithium. Disertasi Fakultas Tekhnik UI.
Subhan,Ahmad.2011. Fabrikasi dan Karakterisasi Li4Ti5O2 Untuk Bahan Anoda
Baterai Lithium Keramik.
Universitas Sumatera Utara
41
Triwibowo,Joko.2011. Rekayasa Bahan LixTiMnyFez(PO4)3 Sebagai Katoda Solid
Polymer Battery (SPB) Lithium.
Tsutomo,Ohzuku, et al.2005. Zero-Strain Insertion Mechanism of (Li1/3Ti5/3)O4
for advances Lithium-Ion (Shutlecock) Batteries. Journal of advanced
energy materials.
Xianyou,Wang.2013. Improved Electrochemical Performance of LiFePO4/C
Cathode Via Ni and Mn co-doping for Lithium-ion Batteries.
Xu,Bo.et al.2012. Rencent Progress in Chatode Materials Research for edvanced
Lithium Ion Batteries. Journal of Materials science and engineering.
Zhao,xin.et al.2011. In-Plane Vacancy Enabled High Power Si Graphene
Composite Electrode ForLithium Ion Batteries. Journal of advanced
energy materials.
Universitas Sumatera Utara
DAFTAR PUSTAKA
Abbas,Askamal.1997.Pengembangan Material Untuk Baterai Padat dengan
Elektrolit Berbasis Senyawa Perak,Serpong.
A.Veluchanny,et al.2011. Boron Substitued Manganese Spinel
Cathode for
Lithium Ion Battery. Solid state ionic.
Celine,Widjojo.2010. Pembuatan dan Karakterisasi LiFePO4/Soda Lime Silica
Sebagai Bahan Katoda Pada Baterai Lithium. Institut Fur Gesteinhutten
Kunde RWTH Acchen Germany.
Chunfu,Lin. 2014. Li4Ti5O12 Based Anode Materials For High Power Lithium Ion
Batteries, Singapura.National University of Singapore.
H.A,Kiehne.1989. Batterry Technology Handbook. Federal Republic of Jerman.
Hongbo,shu et al.2013. Improved Electrochemical Performance of LiFePO4/C
Cathode Via Ni and Mn Co-doping Lithium-ion Batteries.
Jin,B.and
Jiang.Q.
2009.
Lithium
Batteries
Research
Technology
and
Applications: LiFePO4 Cathode Materials for Lithium-ion Batteries. Nova
Science Publisher.
Koseva,N.V, et al.2011. Synthesis of LixMn2O4 Cathoda Material for Lithium
Batteries. Journal of Mechanochemical, Institute of solid state chemistry,
Rusia.
Linden,David.1994. Handbook of Batteries. Mc Graw Hill.Second edition.
Manjhunata,H.et al.2010. Electrode Materials for Equeus Rechargable Lithium
Batteries. Journal of American chemical society.
Minami,Tsutomo dkk.2005. Solid State Ionics for Batteries. Japan : Osaka
Prefecture University.
Myounggu,Park.2010. A Review of Conduction Phenomena in Li-ionBatteries,
Power source.
Prihandoko,Bambang.2007. Pemanfaatan Soda Lime Silica dalam Pembuatan
Komposit Elektrolit Baterai Lithium. Disertasi Fakultas Tekhnik UI.
Subhan,Ahmad.2011. Fabrikasi dan Karakterisasi Li4Ti5O2 Untuk Bahan Anoda
Baterai Lithium Keramik.
Universitas Sumatera Utara
41
Triwibowo,Joko.2011. Rekayasa Bahan LixTiMnyFez(PO4)3 Sebagai Katoda Solid
Polymer Battery (SPB) Lithium.
Tsutomo,Ohzuku, et al.2005. Zero-Strain Insertion Mechanism of (Li1/3Ti5/3)O4
for advances Lithium-Ion (Shutlecock) Batteries. Journal of advanced
energy materials.
Xianyou,Wang.2013. Improved Electrochemical Performance of LiFePO4/C
Cathode Via Ni and Mn co-doping for Lithium-ion Batteries.
Xu,Bo.et al.2012. Rencent Progress in Chatode Materials Research for edvanced
Lithium Ion Batteries. Journal of Materials science and engineering.
Zhao,xin.et al.2011. In-Plane Vacancy Enabled High Power Si Graphene
Composite Electrode ForLithium Ion Batteries. Journal of advanced
energy materials.
Universitas Sumatera Utara