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Modelling plasma surface functionalisation of additively manufactured, porous, prosthetic implants

This project will develop multiphysics models of plasma surface treatment to enable the creation of prosthetic implants with controllable surface properties and long-term biostabili more...

Supervisor(s): Bilek, Marcela (Professor), Baldry, Mark (Dr)

Modelling plasma synthesis of nanoparticles for non-invasive diagnosis and targeted treatment of disease

This project will develop multiphysics models of a low temperature capacitively coupled plasma reactor to engineer functionalised nanoparticles for biomedical applications.This proj more...

Supervisor(s): Bilek, Marcela (Professor), Baldry, Mark (Dr)

Modelling atmospheric plasma processes for biofunctionalization in additive manufacturing

This project will develop multiphysics models of atmospheric pressure plasma systems to engineer interfaces and biofunctionalised scaffolds in 3D bioprinting.  The Applied Phys more...

Supervisor(s): Bilek, Marcela (Professor), Baldry, Mark (Dr)

Plasma surface modification for applications in microfluidic diagnostic systems and implantable cardiovascular devices

You will develop novel hemocompatible, bioactive surfaces in microfluidic models for cardiovascular applications. The project is part of an existing collaboration between medic more...

Supervisor(s): Bilek, Marcela (Professor)

Accelerating Hydrogen Economy

Hydrogen is an extremely important industrial chemical but is also a clean fuel or as an energy carrier whether in the form of liquid hydrogen or liquid ammonia replacing carbon-con more...

Supervisor(s): Ho-Baillie, Anita (Professor)

Nanoparticle-based biomolecule detection systems

You will develop novel systems to detect biomolecular expression profiles for use in imaging and flow cytometry. This multidisciplinary project aims to improve our understandin more...

Supervisor(s): Bilek, Marcela (Professor)

NANOPARTICLE-BASED BIOMOLECULE DETECTION SYSTEMS

You will develop novel systems to detect biomolecular expression profiles for use in imaging and flow cytometry. This multidisciplinary project aims to improve our understanding of more...

Supervisor(s): Fraser, Stuart (Dr)

The impact of non-standard dark matter on cosmology

This project will explore the impact of non-standard dark matter, that can evolve and decay, on the growth of structure in an expanding universe. more...

Supervisor(s): Lewis, Geraint F. (Professor)

PLASMONIC-ENHANCED RAMAN SCATTERING SCANNER: A REVOLUTION IN MOBILE SENSING

This project aims to develop nanoscale waveguide-enhanced spontaneous Raman scattering, thereby bringing on-chip single molecule detection and identification to reality. This projec more...

Supervisor(s): Palomba, Stefano (Associate Professor)

Gravitational Microlensing Time Delay

This project will explore gravitational microlensing time delays, determining the impact of stellar masses on the signal from bursty sources, like gamma ray or fast radio bursts. more...

Supervisor(s): Lewis, Geraint F. (Professor)