Renewable energy sources have advanced tremendously in the past 20 years, but these developments are fundamentally limited by a lack of suitable long duration energy storage systems. My research aims to further harness intermittent wind and solar generation by developing flexible, low-cost electrochemical energy storage systems (i.e. redox flow batteries) and explore electrochemically generated "green" fuels (hydrogen, CO₂ reduction). My focus is on creating sustainable versions of these technologies, using low cost, environmentally friendly and abundant materials that have long-term potential as viable energy carriers in the future global energy network. Beyond energy I also look at transformative electrochemical health care platforms, looking to advance disease diagnostics.

Electrochemical energy storage and conversion -

• New chemistries in flow batteries
• Physical characterisation of flow battery processes
• Electrocatalytic carbon dioxide reduction
• Analytical electrochemistry

Applications are always welcome from MRes and PhD candidates, domestic and international, with their own funding. There is also opportunity to collaboratively apply for funding based on mutual interest. Please contact me!

Lancaster University boasts an a brand new and well provisioned multimillion pound Chemistry Department. It is also well supported by outstanding research facilities in Engineering, Physics, Environmental Science to name a few. Energy research is a particular focal point at Lancaster University with Energy Lancaster championing interdisciplinary research campus wide. This is an exciting time to become involved at Lancaster University, with vibrant, fresh and exciting research ideas central to our emerging chemistry portfolio. Visit our departmental website for more details http://www.lancaster.ac.uk/chemistry