To provide affordable and accessible mobility solutions to both emerging and advanced markets the GIANTS (Green Intelligent Affordable Nano Transport Solutions) project aims to develop a completely new electric vehicle platform. The platform is based on user demands and will be demonstrated and validated in use cases in both emerging and advanced markets showcasing the practicality of GIANTS technology. Rather than focussing on the development of a typical skateboard-solution common in the automotive sector, GIANTS offers a much more flexible and mission tailored approach: It is built on a set of technology solutions, which together allow to produce light electric vehicles (L5, L6 and L7) suited for urban traffic solutions. It offers modularity, scalability, and interoperability, and features innovative charging and energy optimization solutions. The platform will include a lightweight, blind mating and portable 48 V battery, a scalable e-drivetrain, a standardized vehicle control system, and roof solar panels. A vehicle configuration tool will also be available to enable 3rd parties to design vehicles based on the platform. The success of the platform will be assessed in terms of platform usability, manufacturability, vehicle operation, user acceptability, environmental benefits, and business viability. Additionally, a concept for recycling, reuse and refurbishment will be developed. GIANTS will reduce the cost of ownership for electric vehicles and provide climate-neutral solutions for urban transport that are user-friendly, energy efficient, and can improve air quality, thus the project will increase the user acceptance and lead to EU leadership in world transport markets. Demonstration activities with prototypes are expected to raise awareness of the GIANTS technology and facilitate its uptake by major original equipment manufacturers. The potential for the GIANTS technology is 1.5 million vehicles sold annually from 2028 onwards.

ALBATROSS addresses the needs of European Electric and Hybrid-Electric passenger vehicle market by overcoming driver concerns relating to battery range and anxiety, cost, long-term reliability and excessive charging times. ALBATROSS will develop an integrated approach based on smart batteries combined with lightweight designs. Using innovative cooling technologies, we will achieve pack temperature range 5-40°C (30-40°C under ultra-fast charging), with 200Wh/kg, increase driving range to 480km and reduce charging times by 25%. Advanced sensing and control, as a part of a flexible advanced Battery Management System, will be utilised on-vehicle and using the cloud to conduct remote maintenance and troubleshooting ensuring safety even at these high energy densities. Using advanced analytics will enable the State of Health and State of Safety to be continuously and accurately measured. The system will be validated on-vehicle under real world, extreme environmental conditions. ALBATROSS represents a pan-European EU consortium of world leading organisations that are looking to commercialise these technologies of European origin. The coordinator (Yesilova) has a global presence in the automotive market and the consortium is strengthened by organisations that are part of the global Fiat-Chrysler, Ford and Mercedes-Benz groups as well as European SMEs with world leading technologies.

The battery, although central to the green transition of road transport, currently suffers from a supply chain that lacks traceability, sustainability, resiliency, and circularity. Critical Raw Materials (CRMs) are essential for battery manufacturing. The explosive growth of electric vehicles, driven by climate neutrality policy objectives, will pressure the CRM supply chain and increase EU dependency on third countries, resulting in decreased competitiveness for EU automotive and battery manufacturers. Implementing the digital battery passport (DBP) concept in the battery value chain could resolve these issues. The main goal of the BASE project is to develop, validate, and implement a working DBP service, as mandated by the “Regulation.” This will be achieved by exploiting data collected through a number of constantly evolving tools and methods, ensuring a transparent, secure, and cost-efficient platform operation, while also catalyzing the growth of circular businesses. BASE will develop transparent methodologies to calculate battery performance and ESGE indicators, ensuring traceability down to the CRM level throughout the entire battery value chain. In the physical domain, this will be achieved through the mass balancing approach. On the data management side, by exploiting distributed ledger technology, BASE will ensure built-in data authenticity verification along the value chain, with no data duplication, avoiding data manipulation, assuring privacy by design, and promoting data interoperability. The DBP will provide up-to-date and accurate data on battery performance indicators, remaining useful life, dismantling, material composition, and safety. This will allow for an increase in the useful service life of batteries and more efficient recycling, which will enhance resource efficiency, reduce waste, and decrease EU dependency on CRMs from third countries. The applicability of the DBP will be demonstrated through four pilot use cases.