A novel cooling technique to improve the speed and sensitivity of RF measurements. The technique allows quantum measurements to be performed with room-temperature equipment, as well as more sensitive and quicker EPR and NMR measurements.
Technology Sectors & Industries
Engineering
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Professor Mark Oxborrow
Professor Nigel Brandon
A method to manufacture porous metal mats for catalysis and energy applications
A novel method to fabricate porous metal mats with high porosity, variable/controllable thicknesses, high surface area and good mechanical strength
Professor Silvestre Pinho
Damage-resistant Fibre Reinforced Plastic (FRP) with tailorable Herringbone microstructures
A novel technique to manufacture Fibre Reinforced Plastic (FRP) with improved damage tolerance
Porous Boron Nitride (BN) synthesis and shaping
Methods to tune the porosity of boron nitride and shape porous boron nitride into densified ready-to-use macrostructures
Nacre-like decorated fibre for hierarchical ductile composite
A novel nacre-like fibre coating and application method that can improve the mechanical qualities of high performance composites, enabling lightweight nanocomposites with high strength, stiffness and toughness.
Engine Energy Recovery via a High Efficiency Exhaust Turbine
A novel, high efficiency low pressure ratio turbine developed by engineers at Imperial College London to capture a significant portion of residual exhaust energy with negligible effect on engine base performance.
Dr Tom Reddyhoff
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