Research in our lab marries aspects of physics and biology to study the properties of proteins or nucleic acids at the level of single macromolecules and molecular complexes. Experimental tools include laser-based optical traps ("optical tweezers") and a variety of state-of-the-art fluorescence techniques, in conjunction with custom-built instrumentation for the nanometer-level detection of displacements and piconewton-level detection of forces. Click here for an Introduction to Optical Tweezers.Current experimental work in our lab focuses on several biological motors and polymers, including:
Dr Steven Block
Dr. Seb Leaper, Dr. Ahmed Abdelkarim
In this interview, AZoNano visits the GEIC to talk with Watercycle Technologies about their membrane technology that is hoping to sustainably localize the UK's lithium supply chain.
In this interview, AZoNano visits the Graphene Engineering and Innovation Centre to talk with Mark Dickie, Composite Applications Manager, about how the GEIC is helping to take graphene composite innovation out of the lab and into the wider industry.
In this interview, we speak with Stanford's Gu Group about their newly developed metal nanocluster-based material that's advancing nanoscale 3D printing.
The MiniCapt® Pro is a remote microbial air sampler that is ideal for the pharmaceutical manufacturing industry.
This product profile outlines the NanoRacer High-Speed AFM from Bruker JPK.
NMR spectroscopy is a characterization technique that is extensively used by chemical researchers.