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University of Liverpool · 1 day ago

PhD in New Magnetic Particle Imaging (MPI) methods based on complex nanocomposite particle dynamics

Liverpool, PA

Full-time

Onsite

New Grad

The University of Liverpool is seeking a PhD candidate to develop next-generation magnetic nanoparticle systems for biomedical technologies. The project will involve the synthesis of magnetic nanoparticles and their applications in imaging and measuring functional properties within complex materials.

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Hiring Manager

Joe Forth

Responsibilities

Synthesis of magnetic nanoparticles with controlled size (5–1000 nm), composition, and shape using co-precipitation and thermal decomposition methods

Surface functionalisation and polymer integration, including responsive polymer shells, amphiphilic copolymers, and gel matrices designed to alter nanoparticle dynamics in response to biological stimuli

Formation of functional nanocomposites, where changes in particle spacing, aggregation, or rotational freedom encode information about chemical or mechanical changes in the surrounding material

Magnetic characterisation and imaging, using AC susceptometry, magnetic particle rheology, and Magnetic Particle Imaging to extract information on nanoparticle motion, relaxation behaviour, and spatial distribution

Data analysis and modelling, including physics-based models and exploratory machine learning approaches to relate magnetic signals to particle structure and local material properties

Qualification

Magnetic Particle ImagingNanoparticle synthesisMagnetic characterizationData analysisPolymer integrationInterdisciplinary collaborationSoft matter fabrication

Required

PhD in relevant field (Chemistry, Physics, Biomedical Engineering or related disciplines)

Experience in synthesis of magnetic nanoparticles with controlled size (5–1000 nm), composition, and shape using co-precipitation and thermal decomposition methods

Knowledge of surface functionalisation and polymer integration, including responsive polymer shells, amphiphilic copolymers, and gel matrices

Experience in formation of functional nanocomposites and understanding of changes in particle spacing, aggregation, or rotational freedom

Proficiency in magnetic characterisation and imaging techniques, including AC susceptometry, magnetic particle rheology, and Magnetic Particle Imaging

Skills in data analysis and modelling, including physics-based models and exploratory machine learning approaches

Ability to work in an interdisciplinary environment across chemistry and physics

Hands-on experience in nanoparticle and polymer synthesis

Experience in soft matter and biomaterials fabrication

Strong communication and collaboration skills

Company

University of Liverpool

Glassdoor4.2

University of Liverpool offers diverse programs and research opportunities for students.

Founded in 1881

Liverpool, Liverpool, GBR

5,001-10,000 employees

https://www.liverpool.ac.uk

Funding

Current Stage

Late Stage

Total Funding

$20.95M

Key Investors

National Institute for Health and Care ResearchUK Research and InnovationDefence and Security Accelerator

2026-01-06Grant· $2.03M

2024-11-23Grant· $0.38M

2024-09-26Grant

Leadership Team

James Barber

Demonstrator

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