PhD Vacancy
This project is an EPSRC IDLA studentship based in the MRC Toxicology Unit at the University of Cambridge, and with partners at the National Physical Laboratory (NPL) and the company Emissions Analytics.
This studentship is for four years commencing 1st October 2026 (MT26). As prevalence of electric vehicles increases in the transition to net zero, particulate emission from exhausts have declined significantly.
Brake, tyre, and road wear particles have emerged as the dominant source of particulate pollutants from road transport. These non-exhaust emissions pose a growing occupational health risk.
This project aims to characterise occupational exposure of the estimated one million affected UK workers (maintenance workers, bus/lorry drivers, delivery staff etc.) via roadside testing and assess associated health risks by undertaking cell exposure campaigns.
By performing source apportionment analysis, with the help of machine learning, the data will pinpoint sources of the emissions and subsequently inform mitigation strategies, revolutionising the understanding of the harm of these pollutants.
The research aligns with EPSRC’s energy and decarbonisation theme and supports the Engineering Net Zero strategic priority by addressing an overlooked consequence of the electric vehicle transition.
This project requires the student to develop novel, rigorous measurement techniques for a poorly-characterised pollutant source. It demands interdisciplinary thinking across metrology, environmental science, air quality and occupational health which will be reflected through cross-department collaboration.
The student will gain expertise in experimental design, novel data analysis, and policy-relevant research, contributing original insights to a high-impact, emerging field.
This project will deliver new measurement methods for occupational exposure to non-exhaust emissions, including validated sampling protocols, uncertainty models, and exposure datasets. These outputs will inform future standards and UK policy on air quality and worker health.
The research is high-risk due to the lack of existing frameworks but positions NPL at the forefront of emerging air quality challenges. It meets HRHR criteria by tackling a novel, underexplored area with significant sampling challenges. As EVs shift pollutant profiles, new risks emerge.
This work could pioneer measurement approaches, inform regulation, and transform occupational health policy, improving worker protection in a decarbonised transport future.
The studentship will include at least a 3-month placement with NPL (Teddington, London) and benefits from membership of NPL’s post-graduate institute (PGI), accessing training, expertise on metrology and participation in cohort activities and networking events.