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This project develops environmental chemistry modules for high schools. With audio, video, exercises, and experiments, it helps students and teachers explore chemicals’ role in society and environmental issues.

Is waste incineration a source of PFAS in the environment? This project examines how effectively PFAS breaks down during municipal incineration and whether new compounds form.

Next-2Digits develops integration technologies for 2D materials in photonic and optoelectronic circuits. The project enhances performance and cost-efficiency in optical sensors while boosting European innovation through scalable manufacturing.

Since 1985, the EnviSciLab at Linköping University has been an important resource. The laboratory serves as a meeting point for researchers from various disciplines and offers unique opportunities for interdisciplinary research and education.

New technology reveals hidden greenhouse gas emissions from wastewater treatment plants. The research shows 90% of emissions are missed in standard measurements. This project aims to identify effective ways to reduce emissions.

This research explores how methane from radioactive waste moves through groundwater and whether it reaches the atmosphere or converts to carbon dioxide—key knowledge for risk assessment.

The project develops new methods to improve the validation of greenhouse gas models and assessments. The focus is on creating cost-effective, mobile, and high-resolution methods for measuring greenhouse gas fluxes and land use.

Littoral zones influence carbon sequestration and greenhouse gas emissions but are often overlooked. This project integrates them into lake carbon budgets using advanced measurement and modelling techniques.

Radioactive chlorine is part of the waste from nuclear power plants. It has a long half-life of 300 000 years, is highly mobile and bioavailable. In cooperation with e.g. French Nuclear Safety Authority, we examine the chlorine cycling in nature.

Projektet utvecklar nya metoder för storskaliga växthusgasflödesmätningar med drönare, för att noggrant kvantifiera flöden av metan, lustgas och koldioxid. Detta möjliggör bättre bedömningar och reglering av klimatkänsliga utsläpp från landskap.