References
Autonomousvehiclesymposium.com. Available from: https://www.google.com.au/url?sa=i&rct=j&q=&esrc=s&source=imgres&cd=&cad=rja&uact=8&ved=0ahUKEwjW56S3tKDRAhWBjZQKHYc9AXUQjhwIBQ&url=http%3A%2F%2Fwww.autonomousvehiclesymposium.com%2F&psig=AFQjCNEV7nstUHG6jAOAbqT69_gotLYpkA&ust=1483341658551175.
Bloomberg, 2015. Will Tesla Every Make Money? Available from: http://www.bloomberg.com/news/articles/2015-03-04/as-tesla-gears-up-for-suv-investors-ask-where-the-profits-are
Bloomberg, 2016. Here’s How Electric Cars Will Cause the Next Oil Crisis, March, 2015. Available from: http://www.bloomberg.com/features/2016-ev-oil-crisis/
Briggs M, Webb J, Wilson C. Automotive modal lock-in: the role of path dependence and large socio-economic regimes in market failure. Econ. Anal. Policy. 2015;45:58–68.
Cleantechnica, 2015. Tesla Gigafactory & Battery Improvements Could Cut Battery Costs 50%, September, 2015. Available from: https://cleantechnica.com/2015/09/21/tesla-gigafactory-battery-improvements-could-cut-battery-costs-70/
Daim TU, Wang X, Cowan K, Shott T. Technology roadmap for smart electric vehicle-to-grid (V2G) of residential chargers. J. Innov. Entrep. 2016;5(1):1–13.
Eaves S, Eaves J. A cost comparison of fuel-cell and battery electric vehicles. J. Power Sources. 2004;130(1):208–212.
Egbue O, Long S. Barriers to widespread adoption of electric vehicles: an analysis of consumer attitudes and perceptions. Energy Policy. 2012;48:727–729.
Electrical Vehicles World Sales Data Base. Available from: http://www.ev-volumes.com/country/total-world-plug-in-vehicle-volumes/
Energy without Carbon, 2016. Available from: http://www.energy-without-carbon.org/Batteries
Energysage.com, 2016.What-Does-It-Cost-To-Charge-A-Tesla-With-Solar-Energy? Available from: http://news.energysage.com/what-does-it-cost-to-charge-a-tesla-with-solar-energy/
European Environmental Agency, 2016. Electric Vehicles and the Energy Sector—Impacts on Europe’s Future Emissions, 26 September. Available from: http://www.eea.europa.eu/themes/transport/electric-vehicles/electric-vehicles-and-energy
Fernandez LP, San Roman TG, Cossent R, Domingo CM, Frías P. Assessment of the impact of plug-in electric vehicles on distribution networks. IEEE Trans. Power Syst. 2011;26(1):206–213.
Goldman Sachs, 2016. The Changing Car. Available from: http://www.goldmansachs.com/our-thinking/technology-driving-innovation/cars-2025/
International Energy Agency, 2016a. Global EV Outlook 2016. International Energy Agency, Paris, p. 4. Available from: www.iea.org. Licence www.iea.org/t&c ©OEC/IEA.
International Energy Agency, 2016b. Global EV Outlook 2016. International Energy Agency, Paris, p. 26. Available from: www.iea.org. Licence www.iea.org/t&c ©OEC/IEA.
International Energy Agency, 2016c. Global EV Outlook 2016. International Energy Agency, Paris, p. 21. Available from: www.iea.org. Licence www.iea.org/t&c ©OEC/IEA.
International Energy Agency, 2016d. Global EV Outlook 2016. International Energy Agency, Paris, p. 29. Available from: www.iea.org. Licence www.iea.org/t&c ©OEC/IEA.
Liu J, Mirri F, Notarianni M, Pasquali M, Motta N. High performance all-carbon thin film supercapacitors. J. Power Sources. 2015;274:823–830.
Metz, D., 2014. Peak Car—The Future of Travel. Landor LINKS, London.
Morgan Stanley, 2015. Shared Mobility on the Road of the Future. Available from: http://www.morganstanley.com/ideas/c
Motta, N., 2014. QUT Science and Engineering News, November 2014. Available from: https://www.qut.edu.au/science-engineering/about/news-and-events/news?news-id=81661
NEXT Future Transportation Inc., 2016. Available from: https://www.next-future-mobility.com
Notarianni M, Liu J, Mirri F, Pasquali M, Motta N. Graphene-based supercapacitor with carbon nanotube film as highly efficient current collector. Nanotechnology. 2014;25(43):435405.
Nykvist B, Nilsson M. Rapidly falling costs of battery packs for electric vehicles. Nat. Clim. Change. 2015;5(4):329–332.
Putrus, G.A., Suwanapingkarl, P., Johnston, D., Bentley, E.C., Narayana, M., 2009. Impact of electric vehicles on power distribution networks. In: 2009 IEEE Vehicle Power and Propulsion Conference, pp. 827–831.
Rocky Mountain Institute, 2016. Peak Car Ownership—The Market Opportunity of Electric Automated Mobility Services. Available from: http://www.rmi.org/peak_car_ownership
Seba T. Clear Disruption of Energy and Transportation: How Silicon Valley Will Make Oil, Nuclear and Natural Gas Coal Electric Utilities and Conventional Cars Obsolete by 2030. California: Clean Planet Ventures Silicon Valley; 2014.
Sioshansi FP. Electricity utility business not as usual. Econ. Anal. Policy. 2015;48:1–11.
The Green Optimist, 2015. Why Hydrogen Cars are More Efficient That Electric. Available from: http://www.greenoptimistic.com/hydrogen-cars-efficiency/#.WBwzzdi7qUm
Tillemann L. The Great Race: The Global Quest for the Car of the Future. New York, NY: Simon and Schuster; 2014.
Transport Evolved, 2016. Teslanomics Returns as Owner Claims 18-Months of Cost-Free Tesla Model S Ownership. Available from: https://transportevolved.com/2015/03/24/teslanomics-returns-as-owner-claims-18-months-of-cost-free-tesla-model-s-ownership/
US Department of Energy, 2016. The eGallon: How Much Cheaper Is It to Drive on Electricity? Available from: http://energy.gov/articles/egallon-how-much-cheaper-it-drive-electricity
US Department of Transportation, 2009. Summary of Travel Trends: 2009 National Household Travel Survey. Federal Highway Administration. Available from: http://nhts.ornl.gov/2009/pub/stt.pdf
Webb, J., Wilson, C., Briggs, M., 2016. Automotive modal lock-in: a theoretical framework for the analysis of peak car and beyond. QUT. Unpublished journal article submitted to Australasian Journal of Environmental Management.
ZDnet, 2016. Ford: Self-Driving Cars are Five Years Away From Changing the World. Available from: http://www.zdnet.com/article/ford-self-driving-cars-are-five-years-away-from-changing-the-world/
Zhao Y, Ran W, He J, Huang Y, Liu Z, Liu W, Tang Y, Zhang L, Gao D, Gao F. High-performance asymmetric supercapacitors based on multilayer MnO2/graphene oxide nanoflakes and hierarchical porous carbon with enhanced cycling stability. Small. 2015;11(11):1310–1319.
Zhong H, He A, Lu J, Sun M, He J, Zhang J. Carboxymethyl chitosan/conducting polymer as water-soluble composite binder for LiFePO4 cathode in lithium ion batteries. J. Power Sources. 2016;336:107–114.