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University of Sheffield Biomedical Engineering PhD Projects, Programs & Scholarships

We have 35 University of Sheffield Biomedical Engineering PhD Projects, Programs & Scholarships

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Engineering

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Institution

University of Sheffield

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We have 35 University of Sheffield Biomedical Engineering PhD Projects, Programs & Scholarships

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Reactive inkjet and textiles

The global market for printed textiles is in the region of $200 billion with inkjet printing playing a significant role. The PhD will investigate the various reactive inkjet mechanisms used in printed textiles, identifying research opportunities and investigating issues involved in expanding the role inkjet can play. Read more

Reactive inkjet printing

Metal organic frameworks (MOFs) have recently been printed using reactive inkjet printing. This PhD builds on that work aiming to expand the range of MOFs that can be printed and uncovering the advantages of using reactive inkjet printing as the production means. Read more

Reactive inkjet printing - silk porous structures for catalysis?

Silk stirrers and silk ‘rockets’ have been produced using reactive inkjet printing. The purpose of this PhD topic is to investigate the degree of porosity that the silk structures contain. Read more

Improving the mechanical properties of carbon fibre composites via inkjet printed polymer inclusions

Carbon fibre composites have been toughened, and strengthened, by using inkjet printing to deposit discrete droplets of polymer onto the pre-preg that is used to produce the final composite material. Read more

Predicting the inkjet printing performance of particle-containing inks

There has been a lot of research performed into predicting of the jetting performance of inks for inkjet printing. However, to date, the ‘inks’ used have been simple solvents. Read more

Self-Assembling Peptides for Biomedical Applications

Designed short peptides can self-assemble into different nanostructures (such as nanoparticles, nanofibrils and hydrogels) through weak interactions and have a variety of applications. Read more

Microfluidic Fabrication of Nanoparticles/Liposomes for Drug Delivery

Microfluidic devices offer precise control of mixing multiple fluids in microscale, enabling fabrication of advanced nanoparticles/liposomes with tuneable sizes and compositions in a high throughput and repeatable manner. Read more

Core-Shell Silk Nanoparticles for Targeted Drug Delivery

Silk is a protein fibre produced by silkworm. Extensive research has been carried out to explore the regenerated silk fibroin (RSF) as biomaterials such as tissue culture scaffolds, wound covering materials, and cosmetic components for their impressive biocompatibility and biodegradability. Read more

3D Bioprinting of Tissue Culture Scaffolds

3D scaffolds with excellent biocompatibility, biodegradability, sophisticated 3D structures and appropriate mechanical properties are particularly desired as in vitro models in biomedical research and are highly attractive in clinical applications (e.g., as nerve guidance conduits) However, fabricating such scaffolds is challenging. Read more

Perpetual Modelling and Decision Making for Biomedical Systems

Computational power and maturity of mathematical techniques has allowed us to be able to analyse vast amount of data in the biomedical sector which has led to the development of various successful modelling and decision making techniques. Read more

Resilient Implantable Devices

The University of Sheffield's Biomedical Robotics Laboratory within the Department of Automatic Control and Systems Engineering invites applications for a PhD Scholarship on Resilient Robotic Implants from talented and excellent graduates. Read more

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