Context. Global targets to cut carbon-dioxide emissions by 2050 are pushing forward the development of sustainable aircraft. If action is not taken, the annual atmospheric CO. 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
Particle colliders are incredibly complex and expensive devices to design, construct, operate and maintain. There are multiple “frontiers” in particle physics – high energy, high intensity and low background. Read more
There is a growing demand for radioactive isotopes to be employed both in treatment and diagnostics. Suitable isotopes need to be producable in sufficiently large quantities and at affordable price. Read more
A 3.5 year joint industry funded PhD studentship is available within the School of Metallurgy and Materials at the University of Birmingham to develop new tungsten alloys for nuclear fusion. Read more
Established water electrolysis technologies rely on valuable high-purity water which adds significant demand pressure to worldwide resources needed for drinking water, irrigation and sanitation. 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.
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