PhD Studentship: Low-emission Ammonia Combustion through Smart Material Design
Join to apply for the PhD Studentship: Low-emission Ammonia Combustion through Smart Material Design role at University of Nottingham.
Area: Engineering
Location: UK Other
Closing Date: Thursday 15 January 2026
Reference: ENG284
We invite applications for a PhD project focused on fundamental research into novel low-emission ammonia combustion/oxidation processes. This position is based within the Faculty of Engineering at the University of Nottingham, contributing to cutting edge research into clean and sustainable energy technologies.
Ammonia is an essential component of the global strategy to achieve net-zero emissions. As a carbon-free fuel, it holds great promise for decarbonising energy-intensive sectors such as power generation and shipping. However, its practical use in combustion systems remains limited by two challenges: poor reactivity and undesirable nitrogen emission. Due to its high ignition temperature and substantial activation energy, ammonia is difficult to ignite and sustain combustion in conventional systems. Meanwhile, nitrogen oxides and nitrous oxides can form in significant quantities. Existing strategies such as fuel blending, catalytic combustion, or post-combustion treatment often face trade-offs between efficiency, cost, and emission control. To fully realise ammonia’s potential as a clean energy carrier, a fundamental rethinking of the combustion process is needed.
This PhD project will investigate low-NOₓ and low-N₂O routes for ammonia utilisation through advanced catalytic material design. In this interdisciplinary research, you will benefit from expertise at University of Nottingham and collaborate with partners at e.g. University of Cambridge and Newcastle University.
Project goal: Develop and understand a new reaction scheme for ammonia combustion with reduced nitrogen emissions, contributing directly to net-zero engineering.
Key responsibilities:
* Review state-of-the-art technologies for ammonia combustion/oxidation.
* Conduct theory-driven material screening and develop advanced materials for low-emission ammonia conversion.
* Perform experimental investigations and computational simulations of the combustion process.
Who we are looking for:
* 1st class or equivalent in chemical engineering, material science, chemistry, mechanical engineering, or a related discipline. 2:1 may be considered if other criteria are met.
* Good writing, analytical, and communication skills.
* Self-motivated candidate.
Funding support: Upon finding a suitable candidate, the applicant will go through an internal competition for funding.
How to apply: Please send your CV, academic transcripts, and a cover letter outlining your experiences and research interests to Dr Yaoyao Zheng (Yaoyao.Zheng@nottingham.ac.uk). Informal enquiries could also be sent to this email. Applications are evaluated on a rolling basis until a suitable candidate is appointed.
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