Electric vehicles have different environmental impacts compared to conventional internal combustion engine vehicles. While aspects of their production remain resource intensive and can induce similar environmental impacts, some electric vehicles produce little or no tailpipe emissions. With the longer-term benefit seeing a reduced dependence on petroleum and greenhouse gas emissions.
As well as the manufacturing of electronic vehicles, the topic of E-Mobility may also encompass infrastructure such as charging stations, maintenance, power generation and distribution, storage and space provision.
Potential topics include but are not limited to:
- Advanced electric vehicle battery research and development
- Analysis of cost and emissions associated with E-Mobility
- E-Mobility and urban infrastructure
- Electric vehicles lifecycle assessment
- Electric vehicle wireless power transfer systems and smart grids
- Environmental and socio-economical aspects of E-Mobility
- Electric vehicle design, modelling and optimisation
- Public policy for E-Mobility
- Impact of E-Mobility on economic growth and development
- Software programs and system architecture for E-Mobility
- Interoperability between electric vehicles and charging infrastructure.