Location: | Bristol |
---|---|
Salary: | £38,249 to £44,128 per annum, Grade: I |
Hours: | Full Time |
Contract Type: | Permanent |
Placed On: | 11th July 2025 |
---|---|
Closes: | 3rd August 2025 |
Job Ref: | ACAD108201 |
The role
We are seeking to fill a number of postdoctoral research associate positions aligned with a Prosperity Partnership project involving AstraZeneca and Labman: drEAMcat - Earth-Abundant Metal Catalysis in the Production of Pharmaceutical Drugs. The core aim of drEAMcat Prosperity Partnership is to develop catalytic processes for the synthesis of active pharmaceutical ingredients using sustainable, Earth-abundant metals, such as iron and nickel. The replacement of noble metal catalysts in AstraZeneca processes will combine catalyst synthesis with high-throughput experimentation (HTE), automation and digital chemistry, reducing the timescale of experimental and computational mechanistic studies from years to weeks or days, and so achieving rapid implementation of EAM-catalysed transformations by the end of this ambitious project.
What will you be doing?
If your track record is in homogeneous catalysis, the project will focus on the design, application and mechanistic investigation of Earth-abundant (3d transition) metal-based catalysts. In this role, you will be using a classical organometallic and organic synthetic methodology combined with automated approaches and high-throughput screening. If your track record is in computational chemistry, your work will support a group of synthetic chemists by combining detailed mechanistic insights with the use of calculated descriptors/features to analyse the experimental results. In addition, these data, generated with suitable electronic structure methods, will underpin models for the accelerated optimisation of 3d element catalysts, validated experimentally.
You should apply if
You will be a highly motivated individual with a strong background in either (homogeneous) catalytic chemistry, preferably with experience in 3d metal catalysis and/or mechanistic investigation, or computational chemistry, in particular electronic structure calculations (DFT/WFT), again ideally with some expertise in 3d metal catalysis or related areas. Good communication skills are essential, and you must be enthusiastic about working with scientists from complementary disciplines, as you will routinely interact with a team of researchers in synthetic and computational chemistry, as well as HTE and automation specialists. You will be able to work independently and have excellent experimental or computational skills, along with project-management skills and the ability to work as part of a team. You should have, or be about to obtain, a PhD degree or equivalent, demonstrating your extensive experience in either catalytic or computational chemistry.
Additional information
Contract type: Open-ended with fixed funding (3 years)
Work pattern: Full time / 35 hours per week
This advert will close at 23:59 UK time on Sunday 3rd August 2025
The interviews are anticipated to take place on the 14th August 2025
For informal queries, please contact: Prof. Robin Bedford: r.bedford@bristol.ac.uk
or Dr Natalie Fey: Natalie.Fey@bristol.ac.uk
Our strategy and mission
We recently launched our strategy to 2030 tying together our mission, vision and values.
The University of Bristol aims to be a place where everyone feels able to be themselves and do their best in an inclusive working environment where all colleagues can thrive and reach their full potential. We want to attract, develop, and retain individuals with different experiences, backgrounds and perspectives – particularly people of colour, LGBT+ and disabled people - because diversity of people and ideas remains integral to our excellence as a global civic institution.
Type / Role:
Subject Area(s):
Location(s):