Showing 73 results
HO-1 probe compositions designed for rapid, accessible readouts of cellular protection in cardiovascular and hematologic conditions.
EV isolation and engineering methods for scalable manufacturing and advanced therapeutic, diagnostic, and medical applications.
This invention enables efficient single molecule nanopore sensing at femtomolar concentrations using dielectrophoretic trapping by combining nanopore sensing and dielectrophoresis (DEP).
A novel device that can be fitted to home-care appliances to generate hydrogen peroxide or bleach, effectively producing a ‘self-cleaning’ appliance.
A fully flexible, scalable and low-cost detection platform to sense multiple protein targets simultaneously by grafting specific sequences along the backbone of a double-stranded DNA carrier.
Inexpensive, easy to fabricate and use, dielectrophoretic nanotweezers for non-destructive subcellular concentration (trapping) and extraction of biomolecules.
Novel laser architecture shifts near-infrared light efficiently, enabling high-power, narrow-bandwidth output for spectroscopy, imaging, and communications.
Uses lignin and carbon nanotubes in low-cost solvent to produce sustainable, high-yield carbon fibre precursors for composites
These novel compounds could be used in the treatment of antibiotic resistant bacterial infections and demonstrate that inhibitors of NorA efflux can prevent the emergence of further resistant strains.
LhARA uses laser-driven proton beams for precise, high-dose cancer therapy, enabling compact, flexible treatment systems and radiobiological research.
Mouse model mimics AMD pathology, enabling preclinical testing of gene therapies targeting complement factor H and related inflammatory diseases.
Six diverse colorectal cancer cell lines enable research into tumour biology, differentiation, and integrin expression for drug development.
