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Building functional nanostructures for clean energy technology through organic chemistry.

Megabytes vs Megawatts is a research project that studies ongoing infrastructure developments and societal imaginaries to make data centers more environmentally sustainable.

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 CO₂.

The project aims to enhance digitalisation within the manufacturing industry to improve energy efficiency and achieve sustainability.

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.

An increasing number of climate targets require net negative emissions of carbon dioxide. Here we study the methods bioenergy with carbon capture and storage (BECCS) and biochar in the Nordic and Tanzania.

International research shows that there is no available knowledge of where energy is used in Swedish industry. The project aims to cover this knowledge gap about where energy is in fact used, the so-called energy end-use.

The need for energy-smart solutions for sustainable food production is growing. Researchers at Linköping University are investigating the possibility of using Confluent Jets in greenhouses – a technology that could reduce the energy consumption.

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.

The aim of this project is to increase the understanding of how collaboration that promotes new resource flows between public and private actors can be stimulated.