Press release -

Graphene Flagship’s innovations in automotive technology accelerate green mobility

The Graphene Flagship, an ambitious European research initiative launched in 2013, has made significant progress in advancing graphene-based innovations for automotive in the last ten years. The project examines how graphene, with its valuable properties, is addressing key challenges in the automotive sector, such as fuel efficiency, recycling, and environmental impact. Here, Ali Shaygan Nia, business developer for graphene-based coatings and composites for the Graphene Flagship examines the innovations that have helped to develop ground-breaking solutions that enhance automotive components, improve safety and contribute to a greener future.

Graphene has the potential to drive significant advancements in the automotive industry — from strengthening structural components to improving electrochemical energy storage (i.e., Batteries) efficiency and safety in electric cars as well as enhancing the performance of the self-driving car. The Graphene Flagship has orchestrated a number of projects researching the benefits of graphene in automotive applications and how vehicles can be improved. The Graphene Flagship is now seeing this research and development come to fruition.

Ultimately, these projects feed into the United Nations (UN)’s 17 Sustainable Development Goals. Objectives include using graphene-enabled products to ensure good health and wellbeing, affordable and clean energy, sustainable cities and communities, responsible consumption as well as improvements to industry innovation and infrastructure in Europe. For the automotive sector, projects include a wide range of end applications for vehicle features and installations which has the potential to improve sustainability in the market.

G+BOARD

In collaboration with several industrial partners including, Nanesa and Centro Rierche Fiat in Italy, the G+BOARD Graphene-enhanced steering wheel and dashboard project incorporates graphene-based materials to create a lightweight and efficient alternative. By using electro-thermal conductive graphene-polyurethane coatings, the G+BOARD offers faster, more efficient, and uniform heating at low manufacturing costs. This innovation reduces fuel consumption and enhances dismantling and recycling procedures, aligning with the automotive industry’s environmental goals.

Additionally, the project has developed a graphene-based conductive composite dashboard, facilitating easier installation, lighter weight, improved fuel efficiency and end-of-life recyclability. Improving the weight of vehicles will be crucial for the mass deployment of electric vehicles (EVs) in coming years.

AUTOVISION

Currently, self-driving cars use visible cameras, but in dense, low visibility scenarios, these cameras are insufficient. Future autonomous cars will use LIDAR sensors, relying on pulsed laser to measure distances and constantly scan the area around them.

The AUTOVISION project focuses on enhancing the safety of self-driving cars in adverse weather conditions. By integrating graphene-based image sensors, developed in collaboration with industrial partners Aixtron in the UK and Veoneer in Sweden, the project aims to improve the performance of camera systems. These advanced sensors offer improved visibility, enabling safer driving experiences when in challenging weather conditions. This project has also fostered the development of Graphene Flagship spin-off, Qurv, a company that centres on imaging technology for next generation computer vision solutions.

Lubricants, oils and anticorrosion paints

In partnership with various organisations, the Graphene Flagship has explored the integration of graphene in automotive components to enhance performance and sustainability. The use of graphene in oil pans allows for efficient heating of the oil due to the high thermal conductivity of graphene. This addresses issues related to low-temperature viscosity and improving vehicle functionality during winter.

Vehicles that use pressurised oil in their hydraulic power steering are at risk of malfunctions if, for example, the vehicle is parked outside during winter, as oil has higher viscosity at temperatures below 5°C.

Graphene-XT, an innovative start-up that works with graphene, in collaboration with the Graphene Flagship, has also developed graphene-enhanced lubricants. These lubricating oils leverage graphene’s unique properties to reduce wear and tear in diesel and petrol engines. The atom-thin layers of graphene allow for smooth sliding and minimal friction, resulting in engines that are safer, more efficient and produce less mechanical noise. The GTX-Lube range offers tailored solutions for various engine types, promoting longevity and performance.

On the other hand, different graphene flagship industrial partners including core and associated members such as Barpimo and Talga are developing graphene-enhanced anticorrosion paints with improved performance for automotive industries.

Light-weight components

The replacement of traditional materials with graphene-reinforced composites in automotive parts, such as the front-end carrier (FEC), offers weight reduction, cost savings, mechanical improvements and significant CO2 reduction.

One example is the automotive company, BAC. Known for its lightweight technology, it has embraced the properties of graphene to enhance the structural performance of carbon fibre components in its cars. By incorporating graphene into the carbon fibre panels of BAC Mono and Mono R, the number of sheets required was reduced from three to two, resulting in a significant weight reduction — a panel that weighed 41 kilograms (KGs) went down to just 32 kilograms (KGs) after the use of graphene.

Moreover, while BAC's innovative use of graphene showcases its commitment to lightweight technology, technological advancements like this also play a crucial role in the progress of electric vehicles (EVs), particularly in enhancing battery life and overall performance.

Batteries

Speaking of batteries in electronic cars (e-cars), the GrEEnBat project from the Graphene Flagship gather the forces of leading eurpean companie in this direction such as Varta and BMW and focuses on developing silicon-graphene composite anodes for high energy density lithium-ion batteries (LIBs). By harnessing the potential of graphene, the project aims to create battery modules that can compete with projected state-of-the-art technologies available in 2025 aiming for long lasting batteries enabling longer distance driving by e-cars.

Innovation in action

At the Graphene Flagship’s annual conference, Graphene Week 2023, attendees will be able to see the results of this innovation. The Graphene Flagship's partnership with Dallara Automobili spa, an Italian automotive manufacturer, has led to the development of a sports car, the Dallara Stradale.

With innovation from scientists from the Graphene Flagship, the Dallara features a graphene-enhanced, fire-resistant interior. Safety has always been a concern in sports cars due to the risk of fires following accidents. Through the Graphene Flagship's Composites Work Package, Dallara conducted tests using graphene-enhanced composites in the Stradale, resulting in remarkable advancements.

The interior of the car incorporates a composite material with a high graphene content of 10 per cent by weight, making it highly innovative in the racing and automotive market. This material does not burn or emit smoke, successfully passing the stringent Vertical Flammability Test (UL94-V), a significant safety requirement in the automotive industry.

Additionally, other composites applied to the car's body parts exhibit enhanced flexural properties, resistance to deformation and improved energy dissipation capabilities. While the graphene Stradale is currently a prototype undergoing the homologation process, the possibility of producing a limited edition with graphene components in the future remains open. Graphene Week 2023 attendees will be invited to see this automobile at this year’s Graphene Week venue, the Swedish Exhibition & Congress Centre and Gothia Towers in Gothenburg, Sweden.

Through pioneering projects and collaboration, the Graphene Flagship has made significant progress in revolutionising the automotive industry. By harnessing the properties of graphene, these innovations contribute to fuel efficiency, recyclability, safety and reduced environmental impact. The Graphene Flagship will continue to drive advancements as it transitions to the new Horizon Europe phase, solidifying Europe’s position as a leader in graphene research.

For more information on how graphene can be used in automotive applications, head to www.graphene-flagship.eu.

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Topics

  • Energy issues

Categories

  • automotive
  • 2d materials
  • composite materials
  • batteries
  • graphene
  • innovation

About the Graphene Flagship

The Graphene Flagship celebrates a decade of 2D materials innovation

Funded by the European Commission in 2013, the Graphene Flagship has brought graphene innovation out of the lab and into commercial applications. Bringing diverse competencies from nearly 170 academic and industrial partners in 22 countries together, the Graphene Flagship facilitates cooperation between its partners, accelerating the timeline for industry acceptance of graphene technologies. With applications in everything from energy and transportation to electronics and biomedicine, graphene and other 2D materials are changing the way we live and work. The European Commission’s FET Flagships enable research projects on an unprecedented scale. With €1 billion budgets, the Graphene Flagship, Human Brain Project and Quantum Flagship serve as technology accelerators, helping Europe to compete with other global markets in research and innovation. With an additional €20 million investment, the European Commission has now funded the creation of an experimental pilot line for graphene-based electronics, optoelectronics and sensors.

Contacts

Rebecca Waters

Communications Officer +46 70 886 22 29

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