Postdoctoral Research Associate in Solid-State Modelling

Organisation/Company DURHAM UNIVERSITY Research Field Chemistry Engineering Physics Chemistry Researcher Profile Recognised Researcher (R2) Established Researcher (R3) Country United Kingdom Application Deadline 21 Oct 2025 - 00:00 (UTC) Type of Contract Other Job Status Full-time Is the job funded through the EU Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No

Offer Description

The Chemistry Department at Durham University is one of the very best Chemistry Departments in the UK with an outstanding reputation for excellence in teaching, research, and employability of our students. Ranked 21 in REF2021 in terms of grade point average, the Chemistry Department is a thriving environment for research as well as for career development.

Are you an ambitious researcher looking for your next challenge? Do you have an established background in modelling of molecular crystals? Do you want to further your career in one of the UK's leading research-intensive universities?

We are looking for an outstanding Postdoctoral Research Associate to join a research project based in the groups of Prof. Aurora J. Cruz-Cabeza and Prof. John Evans. The project is part of a new £7m EPSRC funded Programme Grant that brings together a team of researchers from the universities of Durham, Leeds and Manchester investigating the formation of Molecular Solid Solutions (MoSS).

Solid solutions are created when atoms or ions of a dopant are incorporated within the crystal structure of a host. Even at minute quantities, this can significantly alter the properties of crystals. Although solid solutions in metals and inorganic materials are well-studied, little is known about systems where the host and dopants are small organic molecules (MoSS). There is huge potential of utilising MoSS for changing and modulating materials properties, such as solubilities, crystal polymorph, crystal sizes and shapes and rates of dissolution.

The overall goal of the consortium is to develop and apply cutting-edge techniques in crystal synthesis, characterisation and modelling to study and generate a new understanding of MoSS. These advances will have applications across multiple sectors, including pharmaceuticals, agrochemicals, and food industries.

There are multiple opportunities to collaborate, take part in network events and undertake research placements within this project.

You will have a PhD in Physical Sciences or a closely related field, and you will have a background in the modelling of molecular crystals. The key responsibilities are to develop, test and implement different modelling methodologies into novel workflows to predict MoSS formation. The successful candidate will be involved in the supervision of a PhD student during the duration of the position and will have significant of opportunities for career development.

• Develop, test and implement modelling methodologies into novel workflows to predict MoSS formation.
• Collaborate within the project team and participate in network events and research placements.
• Supervise a PhD student during the duration of the position.
• Contribute to career development opportunities within the project and department.

• PhD in Physical Sciences or a closely related field.
• Background in the modelling of molecular crystals.