University of Sheffield Featured PhD Programmes
Imperial College London Featured PhD Programmes
University of Hull Featured PhD Programmes

PhD in Chemistry (Chemical Crystallography) - A combined statistical and high-throughput experimental approach for the predictive crystallization of small molecules

School of Natural and Environmental Sciences

This project is no longer listed on and may not be available.

Click here to search for PhD studentship opportunities
Dr M Probert , Dr M Hall No more applications being accepted Funded PhD Project (Students Worldwide)

About the Project

Number of awards


Start date and duration

September 2021 for 4 years.


This PhD CASE award with AstraZeneca will focus on the development of our ground breaking high-throughput Encapsulated Nanoscale Crystallization technology (ENaCt) With the aim to ‘control’ the solid form of new drug-like molecules to have improved bioavailability and physical properties.

Previous work by the Newcastle group has resulted in the development of ENaCt¸ providing the first platform technology for automated nanoscale crystallization. This work has seen considerable interest from both academic and industrial groups and is the focus of a university spinout (Indicatrix Crystallography). In this project we will work with the crystallography group of AstraZeneca¸ headed by Dr McCabe¸ to further develop the technique and enhance the ENaCt protocols for the crystallisation of drug-like molecules¸ a key step in new drug development.

Working with a focussed set of drug-like molecules¸ under the supervision of Drs Hall and Probert¸ the PhD student will refine the ENaCt methodologies to provide optimised crystallisation conditions for molecules based on their molecular properties. Through the use of high-throughput robotics the student will develop automated work flows for both experimental setup and outcome analysis. Working with Dr Heaps the student implement enhanced experimental design that will allow the application of statistical analysis to the outcomes with the final aim of constructing a predictive crystallisation model in which experimental conditions can be deduced from molecular properties¸ an as yet unaddressed challenge in the field. With these tools in hand the student will apply these methods to early stage drug molecules. Through the investigation of their crystal structures we will design synthetic modifications to improve solubility profiles. This will bring the consideration of bioavailability much earlier in the drug development process thus decreasing drug failure rates and speeding time to market.

The PhD student will work as part of a cohort of PhDs/PDRAs in the Johnson and Crystallography laboratories.


AstraZeneca/ESPRC CASE

Name of supervisor(s)

Dr Michael Probert (NU/ICX)Dr Michael Hall (NU/ICX) and Dr Sarah Heaps (NU)

Eligibility Criteria

Applicants must have been awarded a minimum of a 2(i) BSc/MChem degree (or UK equivalent) in Chemistry (or closely related engineering or physical sciences discipline).

The award is available to UK and international (inc. EU) applicants.

How to apply

You must apply through the University’s online postgraduate application system.

You will need to:

  • insert the programme code 8100F in the programme of study section
  • select ‘PhD in Chemistry - chemistry’ as the programme of study
  • insert the studentship code CASE2102 in the studentship/partnership reference field
  • attach a covering letter and CV. The covering letter must state the title of the studentship, quote reference code CASE2102 and state how your interests and experience relate to the project
  • attach degree transcripts and certificates and, if English is not your first language, a copy of your English language qualifications.


For further information please contact [Email Address Removed] or [Email Address Removed].

Funding Notes

100% of Home tuition fees paid and annual living expenses of £15,609 (full award). Additional support will be available to cover consumables, conference fees and travel.
Search Suggestions

Search Suggestions

Based on your current searches we recommend the following search filters.

FindAPhD. Copyright 2005-2021
All rights reserved.