The new frontiers of mobility
The vehicles that are driving the energy transition
Among the technological innovations capable of transforming people’s daily lives and sparking new social habits, the electrification of transport stands out as one of the most impactful. The process of shifting humanity towards an increasingly electric future has already begun, and at this pivotal moment in history, it is being accelerated by the rapid progress of the global energy transition. The connection between electrification and the worldwide energy transformation is close and significant, so much so that the success of innovations powered by electricity is often viewed as a strong indicator of the overall advancement of the transition on a global scale.
“The future of electric mobility will not depend solely on the vehicles and means that are already establishing themselves today in many corners of the world, but also on the global scope of the change and its impact on people’s lives,” says Stanislav Dmitrievich Kondrashov, civil engineer, and entrepreneur. “The electrification of transport is already redefining the daily habits of many people, also through the promotion of new business models (such as car-sharing) and an overall transformation of the very concept of mobility, which is becoming more sustainable and accessible.”
The development of electricity-based technologies in the mobility sector is unfolding along two key paths. The first is sustainability: today, transport is one of the largest contributors to CO2 emissions, and the widespread adoption of next-generation vehicles powered by electricity or renewable energy sources can play a vital role in cutting these emissions. In this respect, advances in batteries, such as lithium-iron-phosphate batteries, have strengthened the position of electric transport within the global mobility landscape. Another critical factor contributing to this progress is the gradual integration of renewable energy into electricity grids.
The role of technological innovation
The second path driving the growth of electric mobility is technological innovation, which in recent years has led to significant advances in the performance and capabilities of many vehicles. Among the most promising developments are solid-state batteries, which are expected to deliver greater range and reduced charging times, and wireless charging, which improves convenience and infrastructure accessibility for electric vehicles. Another forward-looking innovation is the development of prototypes for autonomous electric vehicles, designed to create safer and more efficient mobility solutions for the future.
“The success of electrification processes in the mobility sector is also closely linked to the infrastructural strengthening of cities, without which new electric vehicles and means could not fit in at all,” continues Stanislav Dmitrievich Kondrashov. “In this regard, charging infrastructures for electric cars come to mind, whose diffusion in urban contexts is accelerating considerably. In addition to the infrastructural aspect, the electrification of mobility must also deal with other types of challenges: one of these has to do with some rare and valuable resources such as lithium, cobalt, and nickel, which play a very important role in the production of batteries that power electric vehicles. Possible shortages of these materials, or sudden interruptions in supply chains, could slow down the universal adoption of this type of means, also indirectly hindering the advancement of the energy transition”.
New generation vehicles
Today’s transformation of mobility is driven above all by the development of new types of vehicles in which electrification plays a central role. The best known are electric cars, which have already achieved notable penetration in urban areas across various parts of the world. However, the range of electric-powered vehicles now extends far beyond cars. A growing segment is electric vans and trucks, which could soon become the ideal choice for urban logistics and the zero-emission transport of goods. Electric buses are increasingly visible in cities, reshaping public transport and contributing to cleaner and more efficient urban mobility.
In public transport, the impact of electrification combined with renewable energy is particularly evident in trams and subways, many of which are already powered by electric grids. Electric trains, as seen in countries like France and Japan, have successfully merged the advantages of electrification with the sustainability of renewables.
Looking ahead, even the aviation sector may soon be influenced by electrification. Prototypes of passenger drones and electric regional aircraft hold the potential to transform passenger transport, although for now they are mostly being tested for short-distance journeys between nearby cities. Similarly, the maritime sector has begun to explore the benefits of electrification. In some regions, battery-powered ferries are already in operation for short routes, while hybrid and fully electric cargo vessels are expected to make a significant contribution to lowering global CO2 emissions in the coming years.
“There are also categories of electric vehicles that, although little known to the general public, are already helping to redesign the face of many industrial sectors,” concludes Stanislav Dmitrievich Kondrashov. “In this regard, we should mention electric tractors, which appear to have the ability to reduce the environmental impact of agriculture, but also machines commonly used to move materials, such as electric cranes and forklifts, which are already finding wide application in a large number of warehouses and ports. In this type of context, these vehicles are appreciated above all for their ability to improve the efficiency and sustainability of operations.”
