A 4-year PhD studentship in novel method development and applications in Electron Paramagnetic Resonance (EPR) is available in the group of Dr Alice Bowen. Read more
Quantum computing is a paradigm-shifting computation that has the potential to revolutionalise the way we store, process and compute complex data and is set to transform the digital world, as we know it. Read more
Ice Binding Proteins (IBPs) help extremophiles survive in the worlds coldest environments, but are also used by microorganisms to damage hosts by promoting ice formation. Read more
This project will apply environmental life cycle assessment (LCA) and economic life cycle costing (LCC) to some of the key problems presented by decommissioning activities. Read more
This project tackles the complex interplay between light, pressure and magnetism, which lies at the heart of modern materials science, through the exploration of light- and. Read more
Saturn_Nuclear_CDT. The PhD project will focus on elucidating the corrosion rate of steel and stainless steel when in contact with high-salinity groundwater. Read more
Limiting global warming to 1.5 ºC requires net zero CO2 emissions by 2050 and necessitates renewable electricity reaching 63-81% of total energy generation. Read more
A funded PhD studentship is available in the field of computational inorganic chemistry. The project will involve modelling covalent bonding in crystalline solids to design next-generation electronic materials. Read more
The transition to a net zero chemical industry requires the use alternative carbon sources with potential to reduce greenhouse gas emissions of this sector (i.e., 6% of global CO2-equivalent) [1,2]. Read more
This PhD project offers an exciting opportunity to explore the fascinating world of nanoscience through angstrom-scale capillaries—channels with atomic-scale precision, fabricated from 2D materials like graphene and hBN at the University of Manchester. Read more
Translocation of biomolecules such as DNA, RNA, and proteins through nanoscale constrictions/pores has inspired a new class of lab-on-a-chip sensors that can detect and process for diagnostics and sequencing applications. Read more
Aim. Grain-size is a key feature of high performance alloys, but grain refinement processes are usually expensive because they use high temperatures and strains. 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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