Professor Caroline Gauchotte-Lindsay she/her

Photo of Professor Caroline Gauchotte-Lindsay
State-of-the-art Chemistry for Environmental Engineering

Professor of Environmental Engineering and Chemistry

James Watt School of Engineering
Research interests:
Environmental Engineering, Water Treatment, Micropollutants, Advanced Analytical Chemistry, Sensors, Sustainable Engineering, Circular Economy, Resource from Waste
Research fields:
Analytical Chemistry, Systems Biology, Biotechnologies, Process Engineering, Circular Economy, Material, Macromolecular Chemistry
Why do you want to join the DiveIn community?

As a Co-Director, I’m excited about DiveIn!

I’m eager to collaborate with postgraduate researchers who are passionate about tackling complex challenges, supporting their professional development, and helping them achieve their career goals.

I’m also looking forward to building innovative research alongside new colleagues and external partners. Together, we can transform access to postgraduate research, reshape how we approach interdisciplinary work, and drive positive change in research culture.

Personal profile:

After completing my first degree in France in Natural Sciences, covering chemistry, physics, and many areas of biology, I specialized in Forensic Science and Analytical Chemistry at the master’s level. My PhD research took me into Environmental Engineering, and I now work at the intersection of analytical chemistry and environmental biotechnology.

I’m passionate about using cutting-edge chemistry to solve major environmental problems, with a particular focus on harnessing the incredible engineering power of microbes. My group pushes the boundaries of analytical chemistry to optimise biofilters for drinking water supplies, develop bioremediation technologies for vacant and derelict land, and ensure the safe reuse of sewage sludge. We’re also exploring ways to recycle pharmaceuticals from waste.

In recent years, we’ve have also focused on environmental sensors, both optical and electrochemical. These tools work well in the lab but often struggle in real-world conditions, presenting a significant challenge. My work has always been interdisciplinary, but I sometimes get frustrated when ‘interdisciplinary’ remains more ‘multidisciplinary,’ with each team member staying within their niche. I want us to break through these boundaries—this includes integrating social sciences and humanities, because technology alone can’t solve the challenges our planet and its people are facing.

I’m particularly interested in applying the One Health and circular economy frameworks to all of my research. I’d love to collaborate with colleagues to develop digital twins of biotreatment processes in complex, real-world environments.

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