Superconductivity in 3D

About the project or challenge area

A superconducting material that can conduct electricity at room temperature and pressure will revolutionise the energy industry and save billions of tons of CO2 emissions each year, yet such a material does not exist. We have some very interesting avenues to explore in order to find such a material, one of which is to combine a metal organic framework with a nanostructured carbon molecule in order to create proximity-induced superconductivity. A crystal of this composite material has never been tested as a superconductor, so this project will make and test one and report on the superconducting properties.

Why choose this opportunity?

You will have the opportunity to use simple synthetic techniques in a chemistry laboratory in order to create your target material. In order to characterize the material in full, you will be using electron microscopy and X-Ray diffraction in the School of Chemistry, as well as SQUID magnetometry in the School of Physics. There will be an opportunity to take your material to our collaborators at the Center for Nanotechnology Innovation in Pisa, Italy, in order to do 3D electron diffraction.

About you

No specific skills are required in order to undertake this project. Full training on all aspects will be given in-house.

Bench fees

A bench fee of £7000 is required.

How to apply

All students can apply using the button below, following the Cabot Masters by Research Admission Statement. Please note that this is an advertised project, which means you only have to complete Section A of the Research Statement.

Before applying, we recommend getting in touch with the project's supervisors. If you are interested in this project and would like to learn more about the research you will be undertaking, please use the contact details on this page.


Your supervisor for this project will be Dr Simon Hall, Reader in Materials Chemistry in the School of Chemistry. You can contact him on

Find out more about your prospective research community

The Low Carbon Energy theme is a vibrant community of researchers who integrate expertise across multiple disciplines to develop sustainable energy policy and technologies which are crucial to providing a safe, reliable and low-cost energy supply for a growing global population. We innovate in every part of the energy system, from generation and storage, to regulation and end-user demand Find out more about the Low Carbon Energy theme.

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