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In this project, we focus on the environmental impact of both artificial and natural grass pitches, as well as their energy usage throughout their life cycle.

The UPSCALED project conducts circularity analyses for the large-scale use of future energy conversion technologies and examines how perovskite-based solar cells can be scaled up sustainably from laboratory to industry.

The research project was analysing how energy management is conducted in Swedish manufacturing and shipping industries.

The project explores how recycling actors can develop their roles and strategies to gradually and robustly contribute to a more resource-efficient society in the transition to a circular economy.

Building functional nanostructures for clean energy technology through organic chemistry.

Virtual Worlds explores the role of digital technologies in managing climate change and biodiversity loss. The program reviews how technology can improve environmental governance and include local knowledge for sustainable development.

The PLAN-C project focuses on developing governance and planning for circular construction. Its aim is to optimise resource use and reduce emissions in the building and property sector.

The project studies models and approaches that large companies are currently working with to promote an upstream sustainable supply chain, identify success factors and develop a new unique model for supplier sustainability assurance.

Researchers at LiU are working to develop a new method for capturing carbon dioxide in buildings. By integrating Direct Air Capture into ventilation systems, we can reduce climate emissions and generate profit by selling the captured COâ‚‚.