Do you have a Master’s degree and are looking for fully funded PhD opportunities? Luleå University of Technology, Sweden is now accepting applications for several funded PhD programs across a range of research areas.

1. Fully Funded PhD in Robotics and Artificial Intelligence

Summary of Funded PhD Program

The fundamental vision of RAI is aiming in closing the gap from theory to real life, while the team has a strong expertise in field robotics. Specific application areas of focus are robotics for mines, aerial inspection of aging infrastructure, multi-robotic search and rescue, multi sensorial fusion and multirobot coordination, including multirobot perception, decentralization and mission execution. The RAI team has a strong European and National participation in multiple RDI projects.

Application Deadline: 6 December, 2024

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2. Fully Funded PhD in Engineering Materials with specialization in sustainable metal production and steel recycling

Summary of Funded PhD Program

The first steps towards a fossil-free steel value chain have already been taken and this research supports the next logical step. It concerns multiple loop steel recycling and requires a holistic approach for the whole life cycle of steel products and the entire value chain. Steel is one of the most recycled commodities in the world. However, most of what is today termed recycling constitutes downcycling – i.e., that the recycled products exhibit significantly poorer quality than the original products. The main goal of this project is to identify and develop methods to avoid downcycling.

Application Deadline: 10 December 2024

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3. Fully Funded PhD in Waste Science and Technology – Advancing electrochemical oxidation technique for complete PFAS degradation

Summary of Funded PhD Program

This project will focus on advancing electrochemical oxidation method to achieve a complete degradation of per- and polyfluoroalkyl substances (PFAS) in waste streams. Electrochemical oxidation is a technology that utilizes an electric current through electrodes to generate reactive species capable of effectively breaking down and degrading PFAS molecules. Degradation mechanism of PFAS is highly complex and not fully understood yet, leading to a fluorine mass imbalance after treatment. This necessitates a thorough assessment of the process and selection of suitable electrode materials to achieve the effective and complete PFAS degradation through electrochemical oxidation.

Application Deadline: 10 January 2025

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