Proton batteries are widely believed to be one of the most promising next-generation energy storage devices. Underpinned by fast proton diffusion kinetics, they should be able to provide a safer, environmentally friendly alternative to the currently dominating lithium-ion batteries. Read more
This project aims to develop innovative 2D material-based laminate membranes to enhance the performance and safety of Proton Exchange Membrane Water Electrolyzers (PEMWEs). Read more
The University of Bath Institute of Sustainability and Climate Change is inviting applications for the following funded PhD project commencing at the end of September 2025. Read more
Fuel cells have been considered as one of the promising technologies for the next generation energy production systems, because of their high energy efficiency and low pollutant emission. Read more
These projects are open to students worldwide, but have no funding attached. Therefore, the successful applicant will be expected to fund tuition fees at the relevant level (home or international) and any applicable additional research costs. Read more
The Hydrogen Economy will help to shift society away from fossil fuels and contribute to decarbonisation. Polymer electrolyte membrane water electrolysis (PEMWE) can convert renewable energy into green hydrogen, whilst polymer electrolyte membrane fuel cells (PEMFCs) convert hydrogen into electrical power. Read more
Multiple technologies essential in the transition to net zero and renewables are underpinned by energy materials capable of transporting ions or electrons. Read more
Proton exchange membrane (PEM) fuel cells are one of the most promising clean power conversion technology that has been increasingly adopted by several countries to reduce the emission of the greenhouse gas emissions. Read more
Fuel cells are very strong competitors to the conventional energy conversion technologies which are responsible for the emission of the greenhouse gases. Read more
Proton exchange membrane (PEM) fuel cells are an efficient technology which can be used in a wide portable, automotive and stationary applications. Read more
Proton exchange membrane (PEM) fuel cells are a promising clean power conversion technology as they are efficient and can operate at low temperatures. Read more
Proton exchange membrane (PEM) fuel cells can operate at low temperatures and are scalable. Therefore, they can be used in a wide range of applications, such as portable, automotive and stationary applications. Read more
*Offer only available for the duration of your active subscription, and subject to change. You MUST claim your prize within 72 hours, if not we will redraw.
Do you want hassle-free information and advice?
Create your FindAPhD account and sign up to our newsletter:
Find out about funding opportunities and application tips
Receive weekly advice, student stories and the latest PhD news
Hear about our upcoming study fairs
Save your favourite projects, track enquiries and get personalised subject updates
Due to your Facebook privacy settings, we were unable to create your account at this time. Please select another method to sign up.
We were unable to log you in with your Google account at this time. If you have third-party cookies blocked, please enable them, refresh, and try again.
or
Continue with Facebook
Create your account
We were unable to log you in with your Google account at this time. If you have third-party cookies blocked, please enable them, refresh, and try again.
Looking to list your PhD opportunities? Log in here.