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Sponsorship verifiedReaction EngineeringAutomationRobotic SystemsChemical ReactorsData Acquisition
Requirements
Candidates should have a strong background in reaction automation and digital chemistry. Experience with robotic systems and data-driven optimization tools is preferred.
Job Description
Are you an ambitious researcher who wants to translate cutting‑edge reaction engineering and automation into real-world products? Are you an ambitious researcher who wants to pioneer the next generation of robotic, reconfigurable chemical reactors for real world impact? Do you want to further your career in one of the UK’s leading research-intensive Universities?
We are seeking a Research Fellow in Reaction Automation to join the EPSRC funded programme R4PID: Reconfigurable, Robotic & Responsive Reactors for Processes through Intensified Development—a flagship project aiming to redefine how synthetic routes are designed, optimised, and prepared for pharmaceutical manufacture.
R4PID will develop digitally integrated, microvolume, reconfigurable robotic flow reactors capable of autonomously adapting to the needs of diverse synthetic reactions.
These systems will:
To explore the post further or for any queries you may have, please contact:
Professor Richard Bourne, Professor of Digital Chemical Engineering
Email: R.A.Bourne@leeds.ac.uk
Please note that this post may be suitable for sponsorship under the Skilled Worker visa route but first-time applicants might need to qualify for salary concessions. For more information, please visit the Government’s Skilled Worker visa page.
For research and academic posts, we will consider eligibility under the Global Talent visa. For more information, please visit the Government’s page, Apply for the Global Talent visa.
We are seeking a Research Fellow in Reaction Automation to join the EPSRC funded programme R4PID: Reconfigurable, Robotic & Responsive Reactors for Processes through Intensified Development—a flagship project aiming to redefine how synthetic routes are designed, optimised, and prepared for pharmaceutical manufacture.
R4PID will develop digitally integrated, microvolume, reconfigurable robotic flow reactors capable of autonomously adapting to the needs of diverse synthetic reactions.
These systems will:
- Generate microvolume reaction pulses with individually controlled conditions;
- Parallelise droplet based microreactor environments for massively increased throughput based microreactor environments for massively increased throughput;
- Integrate advanced inline sensors (e.g., IR, MS, NMR, UV–vis) for real time data acquisition time data acquisition;
- Connect to AI driven optimisation and process modelling tools driven optimisation and process modelling tools;
- Provide manufacturing quality process data using micro and nanomole quantities quality process data using micro and nanomole quantities;
- Enable autonomous exploration of discrete variables (catalysts, solvents, reagents);
- Build a continuous data pipeline from screening → optimisation → scale up.
To explore the post further or for any queries you may have, please contact:
Professor Richard Bourne, Professor of Digital Chemical Engineering
Email: R.A.Bourne@leeds.ac.uk
Please note that this post may be suitable for sponsorship under the Skilled Worker visa route but first-time applicants might need to qualify for salary concessions. For more information, please visit the Government’s Skilled Worker visa page.
For research and academic posts, we will consider eligibility under the Global Talent visa. For more information, please visit the Government’s page, Apply for the Global Talent visa.
Education
["postgraduate degree"]
Skills
Reaction EngineeringAutomationRobotic SystemsChemical ReactorsData AcquisitionAI OptimizationProcess ModellingPharmaceutical ManufactureMicroreactor TechnologyInline SensorsReconfigurable SystemsSynthetic ReactionsResearchEngineeringDigital Chemistry