Log in
This research, performed in the Department of Mechanical Engineering at Sheffield, has provided a unique method for measuring oil films in real engineering components like ball-bearings, thrust pads, seals, and piston rings. Adopted by leading industrial customers across Europe, the resulting benefits include the development of new seal designs and piston ring-pack products as well as trouble-shooting pump failure. The spin-out company, Tribosonics Ltd., which manufactures the instrumentation under licence and provides consultancy services, currently employs eight people and turned over £450k in 2012 (£600k expected in 2013). Customers include [text removed for publication] who have seen their new ring pack reduce oil consumption by up to 40%, saving $160K per year per engine and [text removed for publication] whose seals designed and tested using our methods have 10% of the leakage of conventional seals.
An advanced plasma source based on novel engineering has been developed and proven in conjunction with Thin Film Solutions Ltd (TFSL). This source is retrofittable to existing electron- beam deposition systems and significantly improves the properties of thin films and advanced optical filters. TFSL has produced commercial products based on this source and has achieved sales to date of £2.3 million (letter from CEO of TFSL provided) as the new technology has been widely adopted in the optical filter industry.
Research undertaken by the University of Sheffield between 1999 and 2012 in functional oxide thin films was commercialised through knowledge transfer partnerships (KTP) with Ilika Technology. This directly led to over £1M in contracts and subsequent improvements in the commercial viability of the product base of blue-chip companies such as Toshiba, Toyota and Ceramtec and contributed to the increase in Ilika's turnover to ~£2M per annum and a growth in staff from 5 to 35 in 2012. In 2011, Ilika floated on the stock exchange with a valuation of ~£20M. The CEO has personally recognised the role Sheffield has played in establishing Ilika Technology as a limited company and in growing company revenue through contracts with leading multinationals.
This research within the Unit was in collaboration with TT Electronics plc. to develop a novel low-ohmic thin film resistor for precision current measurement in power management applications. TT Electronics plc. is an international company with 6,000 employees worldwide and annual sales of over £500 million to multinational clients such as BMW, Daimler and BAE Systems. Since 2008 the benefits of this research to TT Electronics plc. include:
Thin-film optical filter research at the University of Reading is a unique and enabling technology that permits astronomers and meteorologists to gather data leading to increased understanding of atmospheric and astrophysical phenomena. Infrared filters are the key optical components in many satellite telescopes for Earth observation, planetary research probes and infrared astronomy. They form the eyes of the instrument to separate light into wavebands in order to measure temperature, gas composition, water vapour, dust clouds and aerosols. This data is used to generate accurate atmospheric and environmental circulation models for global climate studies, and measure properties of the universe for stellar and planetary formation theories.
Super-repellent surfaces created by plasmachemical techniques invented at Durham University have been exploited by P2i as the Ion-mask™ and Adiron™ brands and used to protect the surfaces of millions of products worldwide including: 3 million pairs of footwear (Timberland, Hi- Tec); 8 million mobile phones (Nokia, Motorola, Alcatel); 60% of the world's hearing aids (HLT, GN Resound); 55,000 feet of filter media (Porvair); and 100 million pipette tips (Eppendorf). This has earned P2i industry awards including the 2011 and 2012 International Business Award for "Most Innovative Company in Europe" and the "Global Business Excellence Award" 2012. The combined turnover of P2i since 2008 was ca. £20M, it received external investment of £31.75M and has created 115 new jobs. A DU IP-holding spin-out company, Surface Innovations, was purchased by P2i in 2010, and further applications of DU plasmachemical functionalization were commercialized by Dow Corning Plasma Solutions Ltd and exploited in-period.
Fingerprints remain the most conclusive means of linking an offender to a crime scene. Conventional visualization techniques require the sweat deposit to be largely retained and thus have low success rates. We have developed technologies to visualize fingerprints on metals after the sweat deposit has been substantively lost, deliberately removed or environmentally degraded. One technology uses microscale corrosion caused by the sweat deposit; it has been used in solving gun crimes. A second technology uses trace residual sweat deposit as a template to direct electrochromic polymer deposition to bare metal between the ridge deposits. These have been adopted in the new Home Office Fingerprinting Manual and licensed to UK forensic providers.
Research in atmospheric pressure (thermal) chemical vapour deposition (APCVD) at the University of Salford demonstrates the following impact:
Research in Durham Physics Department on optical waveguides was used to build a novel interferometer which can measure real time changes in dimension and density of a thin film adsorbed on a sensor chip. This has multiple applications in surface science and biophysics, e.g. in measuring conformal and other structural changes in proteins as they interact with drug candidate molecules. The device was developed as a commercial product by a spin-out company, Farfield Sensors, which sold the interferometers to research institutes and industry. The Farfield Group was bought in 2010 by Biolin Scientific for £2.5M.
Research at the University of Manchester has supported the development of drinks vending systems for Mars Drinks. The research has demonstrated that a detailed understanding of the relationship between the structure and properties of the polymeric components is vital for the design and performance of two drinks vending systems, Flavia (single-portion fresh beverages) and Klix (in-cup beverages). This research has contributed to major improvements in materials selection, quality control, cost reduction and performance. These drinks vending systems were developed originally in the UK in collaboration with the University of Manchester, with Flavia now also manufactured in the USA and marketed worldwide by Mars Drinks with an estimated sales value of > US$400m per annum.