Development of AI Organic Ultra-Supercapacitor
摘要
Worldwide recently awares about the commercialization of EV to reduce the environmental threats about 90% which could be due to the internal combustion engine (ICE) engine vehicle greenhouse gas (GHG) emissions. Electricity is a potential clean energy substitute for ICE vehicles. This could be the biggest obstacle to charging electric vehicles in the future. Moreover, EVs are limited by range and speed. Most of the EVs have mileage range about 50–100 and low speed. EV’s battery has longer charging time. While it only takes a couple of minutes to fill up the fuel tank of IC vehicle, EVs take about 4–6 h to get fully charged. Depending on the type and usage, batteries of all EVs must be replaced every 3–10 years. In addition, the main traction batteries of electric vehicles are overloaded by car accessories, radios, air conditioners and electrical systems. These applications drain battery faster and increase the frequency of battery charging, resulting in poor battery life. Artificial Intelligent (AI) control organic ultra-supercapacitor EV’s body panel is one of the potential solution to generate energy from trapping renewable solar energy and it could be useful to meet the axially power demand of EV including dashboard.