43

DAFTAR PUSTAKA

Aifantis KE, Hackney SA, Kumar RV, 2010. High Energy Density Lithium Batteries. Wiley-VCH Verlag GmbH & Co, kGaA. Jerman.

Anuphappharadorn S, Sukchai S, Sirisamphanwong C, Ketjoy N, 2014. Comparison the economic analysis of the battery between lithium-ion and lead-acid in PV stand-alone application. Energy Procedia, 56: 354.

Biron M, 2007. Thermoplastics and Thermoplastic Composites: Technical Information for Plastics Users. Elsevier. Oxford.

Bruemmer M, Dr Schnabel, 1999. PTFE-lined equipment (columns and vessels) for the chemical process industry. Journal of Corrosion, 400: 1-3.

Grosjean C, Miranda PH, Perrin M, Poggi P, 2012. Assessment of world lithium resources and consequences of their geographic distribution of the expected evelopment of the electric vehicle industry. Renewable and sustainable energy reviews, 16: 1735.

Han X, Ouyang M, Lu L, Li J, 2014. Cycle Life of Commercial Lithium-Ion Batteries with Lithium Titanium Oxide Anodes in Electric Vehicles. Energies, 7: 4896.

Hou S, Onishi Y, Minami S, Ikeda H, Sugawara M, Kozawa A, 2005. Charging and Discharging Method of Lead Acid Batteries Based on Internal Voltage Control.

Journal of asian electric vehicles, 3: 733.

Kawamoto, Hiroshi. 2010. Trends of R&D on Materials for High-power and Large-Capacity Lithium-ionBatteries for Vehicles Applications. Quarterly Review, 36: 42.

Klancnik G, Medved J, Mrvar P, 2009. Differential thermal analysis (DTA) and differential scanning calorimetry (DSC) as a method of material investigation. RMZ – Materials and Geoenvironment, 57: 128.

Lee J, Park JH, Shim SE, 2010. Production of Acetylene Black/silica Composite Particles by Adsorption of Polyethylenimine. Elastomers and Composites, 45: 7-8.

Li J, 2012. Understanding Degradation and Lithium Difussion in Lithium Ion Battery Electrodes. [Dissertation]. Lexington: University of Kentucky.

Linden D, Reddy TB, 2002. Handbook of Batteries. McGraw-Hill Inc. New York.

44

Mahmoud HT, Xu L, 2011. A combined Li-ion & Lead-Acid Battery System for Start-Stop Application: Potential & Realization. Chalmers University of Technology. Swedia.

MSDS PTFE. 2008. Polimaxx. Thailand: IRPC Public Company Limited.

Nitta N, Wu F, Lee JT, Yushin G, 2014. Li-ion Battery Materials: Present and Future. Materials Today, 18: 260-261.

Nordh T, 2013. Li4Ti5O12 as an anode material for Li ion batteries in situ XRD and XPS studies. [Thesis]. Uppsala: University Uppsala.

Oswal M, Paul J, Zhao R, 2010. A Comparative Study of Lithium-Ion batteries. AME 578 Project, 2-3.

Polytetrafluoroethylene (PTFE). 2016. Disclaimer and Terms.

Polyvinylidene fluoride (PVDF) MSDS. 2000. MTI Corporation. USA: ATOFINA Chemical, inc. Pages: 1-2.

Shu, Jie. 2008. Study of the Interface Between Li4Ti5O12 Electrodes and Standard E Electrolyte Solution in 0.0- 0.5 V. Electrochemical and Solid-State Letters, 11: 240.

Sibiryakov, RV, Kudryavtsev EN, Kiryanov BV, Agafonov DV, Naraev VN, Bobyl AV, 2013. Hydrothermal Synthesis and Study Of as Li4Ti5O12 Anodic Material. Chemistry and Chemical Technology, 26: 1.

Sun X, 2015. Development and Characterization of NanoStructured LiFePO4 Cathode and Li4Ti5O12 Anode Materials for High-Performance Li-Ion Battery. [Thesis]. Ontario: University of Waterloo.

Tarascon JM, Armand M, 2001. Issues and challenges facing rechargeable lithium batteries Macmillan Magazines Ltd, 414: 359.

Teng H, 2012. Overview of the Development of the Fluoropolymer Industry. Applied sciences, 2: 498.

Tidblad AA, Berg H, Edstrom K, Johansson P, Matic A, 2015. Batteries – present and future challenges. Swedish Hybrid Vehicle Centre, 10: 6.

Thermogravimetric Analysis–TGA. 2009. Jerman: Netzch Gratebau GmbH.

Torabi K, 1999. Fourier Transform Infrared Spectroscopy in Size Exclusion Chromatpgraphy. [Thesis]. Kanada: University of Toronto.

Vikstrom H, Davidsson S, Hook M, 2013. Lithiumm Availability and Future Production Outlooks. Applied Energy, 110: 252.

45

Winter M, Brodd RJ, 2004. What are batteries, fuel cells, and supercapacitors?. Chemical Reviews, 104: 4245-4270.

Wu B, Ren Y, Li N, 2011. LiFePO4 Cathode Material. Electric Vehicles – The Benefits and Barriers, 199.

Xu J, 2014. Advanced Materials for Lithium-ion Batteries and Sodium-ion Batteries. [Thesis]. Australia: University of Wolongong.

Yoshio M, Brodd RJ, Kotawa A, 2009. Lithium-Ion Batteries. Springer Science Business Media, llc. USA.

Yao Y, 2003. Carbon Based Anode Materials for Lithium Ion Batteries. [Thesis]. Australia: University of Wollongong.

Zhao Y, Yu H, Yang D, Li J, Shao Z, Yi B, 2012. High Performance Alkaline Fuel Cells Using Crosslinked Composite Anion Exchange Membran. Journal of Power Source, 221: 249-250.

Zhao R, Jie L, Gu J, 2017. A Comprehensive Study on Li-ion Battery Nail Penetrations and the Possible Solutions. Energy, 123: 392.

Zhong C, Deng Y, Hu W, Sun D, Han X, Qiao J, Zhang J, 2016. Electrolytes for Electrochemical Supercapasitor. Taylor & Francis group llc. Prancis.