PhD in Adaptive Inertial Microfluidics for Cancer Cell Separation (Computational Modelling & Experimental Microfluidics) University of Edinburgh in United Kingdom

Degree Level

PhD

Field of study

Biomedical Engineering

Funding

Applications are welcomed from self-funded students or those applying for scholarships from the University of Edinburgh or elsewhere. EPSRC competition funding may be available for an exceptional candidate who is a UK student or an EU student with pre-settled/settled status and at least 3 years UK residency. No specific stipend or tuition coverage amounts are mentioned.

Deadline

Jan 9, 2026

Country

United Kingdom

University

University of Edinburgh

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Where to contact

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Keywords

Biomedical Engineering

Fluid Mechanics

Medical Science

Lab-on-a-chip Technology

Microfluidic

Computational Modelling

About this position

A PhD studentship is available in the field of adaptive inertial microfluidics for universal cancer cell separation, jointly supervised by Associate Professor Sally A. Peyman (Heriot-Watt University) and Dr Benjamin Owen (University of Edinburgh). The project focuses on developing advanced microfluidic systems capable of separating circulating tumour cells (CTCs) from blood, which is crucial for early cancer detection, monitoring disease progression, and personalizing treatments. The research addresses the challenge of isolating rare CTCs with diverse physical properties by designing adaptive microfluidic devices whose internal flow environments can be tuned post-fabrication, enabling universal application across different cancer types and patient samples.

The student will integrate computational modelling and experimental microfluidics, using high-fidelity simulations to study inertial flow structures and their impact on cell migration, and fabricating/testing prototype devices to validate computational findings. The project offers training in high-performance computing, fluid simulation, microfabrication, microscopy, and diagnostic technology development. Collaboration with Prof. Ian Papautsky (University of Illinois Chicago) adds industry-informed guidance and real-world applicability.

Applicants should hold at least a 2:1 Honours degree (or international equivalent) in a relevant science or engineering discipline, with an MSc degree desirable. English language requirements apply for EU/Overseas applicants. EPSRC competition funding may be available for UK residents or EU students with pre-settled/settled status and at least 3 years UK residency; otherwise, students must be self-funded or secure scholarships. The closing date for applications is 9 January 2026.

For more information and to apply, visit the University of Edinburgh's website or contact Dr Benjamin Owen. This opportunity is ideal for candidates interested in biomedical engineering, fluid dynamics, computational modelling, and lab-on-chip diagnostics.

Funding details

What's required

Applicants must have at least an Honours degree at 2:1 or above (or international equivalent) in a relevant science or engineering discipline, possibly supported by an MSc degree. English language requirements apply for EU/Overseas applicants. Candidates must be UK residents or EU students with pre-settled/settled status and at least 3 years residency in the UK to be eligible for EPSRC funding. Interest in computational modelling and experimental microfluidics is essential.

How to apply

Apply online via the University of Edinburgh's application portal before the deadline. Contact Dr Benjamin Owen for informal enquiries. Prepare your academic transcripts and proof of English proficiency if required. Review eligibility and funding options on the university website.