Location: | Newcastle upon Tyne |
---|---|
Salary: | £34,866 to £45,163 per annum. |
Hours: | Full Time |
Contract Type: | Fixed-Term/Contract |
Placed On: | 28th October 2024 |
---|---|
Closes: | 25th November 2024 |
Job Ref: | 27704 |
We are a world class research-intensive university. We deliver teaching and learning of the highest quality. We play a leading role in economic, social and cultural development of the North East of England. Attracting and retaining high-calibre people is fundamental to our continued success.
The Role
We are looking to appoint two Research Associates in the modelling of solid-state battery materials in the Ion Transport and Interfaces Group of Dr. James A. Dawson at Newcastle University. Each position is initially for 2 years with the possibility of extension to 4 years.
The first of the positions is focused on cathode materials for solid-state batteries. Specifically, you will use atomistic modelling to explore both the intrinsic properties of state-of-the-art cathodes (e.g., LiNiO2, NMC and LiFePO4) and their stability and direct interaction with a range of solid electrolytes. This will involve the creation of both implicit and explicit interfacial models.
For the second position, you will be responsible for developing microstructural models of topical solid electrolytes (oxides, sulphides and halides) to probe their properties as a function of, for example, particle size, densification and porosity. This will be achieved using a combination of density functional theory, classical molecular dynamics, machine learning approaches and other complementary computational methods.
You will be involved in a large UKRI Frontier Research Grant ("AMPed") that will be carried out in collaboration with world-leading experimental partners in the UK, Europe and North America. Our ambition is to develop and apply state-of-the-art computational and experimental techniques to provide a fundamental understanding of structure, ion transport and interfaces in solid electrolytes for clean energy applications. Such an understanding will allow for the design of enhanced solid-state batteries and other energy devices.
For informal enquiries please contact Dr. James A. Dawson james.dawson@ncl.ac.uk.
For further information about our research please see the Dawson Group website.
Applications should be made through the Newcastle University jobs portal (available on the university's website, accessed by the 'Apply' button) where you are invited to provide evidence of how you meet the essential criteria required for the role outlined in ‘The Person' by uploading a letter of application along with your Curriculum Vitae (CV).
Type / Role:
Subject Area(s):
Location(s):