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This case study describes the impact of interdisciplinary research at MMU that has focused on the development and characterisation of hygienic and antimicrobial surfaces across a range of applications, particularly with regard to food hygiene, which in turn impacts on food quality, reduced waste and consumer health across the international food industry. This 20-year collaboration has enabled identification and specification of properties of putative hygienic/antimicrobial surfaces, whilst testing them in vitro and in situ. This research has had international impacts in areas including health (cross-contamination) hygienic design (food processing), and development of standards for testing novel materials.
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.
University of Huddersfield research into surface metrology, carried out as part of the EU-funded SURFSTAND project, has led to worldwide changes in manufacturing. Nine ISO standards related to measuring the surface roughness of parts have been developed as a result, influencing practices in sectors ranging from aerospace and automotive engineering to microelectronics and bio-implant production. Consequently, all quantitative 3D surface measurement carried out in the world now draws on the research. Instrument manufacturers and the National Physical Laboratory have also implemented the standards, while software developed as part of the research has been incorporated by a leading industrial partner, significantly enhancing the company's offering and market position.
Ehiasarian and Hovsepian of the Materials and Engineering Research Institute (MERI) have achieved significant economic impact through industrial uptake of their innovations in High Power Impulse Magnetron Sputtering (HIPIMS). Exploiting these innovations, HIPIMS treatments have been used by manufacturers to enhance the surface properties of millions of pounds worth of products. Applications include industrial blades, components within jet turbines, replacement hip joints, metallised semiconductor wafers and satellite cryo-coolers. Patents based on Ehiasarian and Hovsepian's research have achieved commercial success. In the REF impact period, HIPIMS machines equipped to deliver MERI''s HIPIMS surface pre-treatment have achieved sales of over £5m, and income generated through SHU's HIPIMS-related licences has totalled £403,270. In 2010 Ehiasarian's group established the Joint Sheffield Hallam University-Fraunhofer IST HIPIMS Research Centre, the first such Centre in the UK. This has broadened the industrial uptake of MERI's HIPIMS technologies and stimulated a network of sub-system providers.
The research led to the development of a suite of tests to ensure appropriate assessment of biomechanical, mechanical and physical properties of equestrian arena surfaces. Test arenas were assessed in preparation for the London 2012 Olympic Games, generating data which contributed to changes in the design, construction and management of the Olympic equestrian arenas at Greenwich Park. Subsequently, functional properties suggested as most relevant to the performance, safety and welfare of horses in disciplines such as dressage and show jumping have been described in a White Paper, now endorsed and approved for publication by the Fédération Equestre Internationale (FEI).
NOTE: The FEI, established in 1921, is the international governing body responsible for all international equestrian events in disciplines such as dressage, show jumping and eventing. The FEI sets out the regulations for international equestrian competitions, including the Olympics and Paralympics.
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.
Cranfield's research into ultra-precision machining and production science has led to new production machines, and to commercial availability of advanced optical surfaces, at a level of accuracy previously impossible. Cranfield's industrial clients have won contracts for advanced surface production worth >£5 million in under five years. Cranfield made:
Graham Buckton's work at the UCL School of Pharmacy has involved the development of new techniques, which are now industry standards, for assessing the amorphous content of materials in inhalation products. This work has had a significant influence on both manufacturing quality control and regulatory requirement, including informing FDA policy, to the effect that this type of assessment is now a requirement for licensing of powder inhalation medicines in the US and Europe. Benefits to drug companies include cost savings and more reliable production. Furthermore, the associated School of Pharmacy spin-out company, Pharmaterials, offers these assessments as a core part of its commercial activity, with a large client base of industrial partners who require such assessments for their inhalation and other products. The overall result of this work has been changes and improvements in the design, control and manufacture of inhalation products.
Nanomaterials research at Ulster into materials including diamond-like carbon (DLC) ultra-thin films, carbon nanotubes (CNT), graphene, silicon and metal oxide nanoparticles has resulted in direct uptake by major industrial manufacturers and led to a directly quantifiable socio-economic impact via added value, improved efficiencies and cost-savings and has secured or increased the employment of skilled engineering staff. Examples of this impact since 2008 include ceramic nanoparticles research in partnership with AVX Ltd that resulted in improved production efficiency processes (up 20%) and higher quality devices (up 10%). [text removed for publication] Research into ultra-thin DLC films, funded by Seagate, has led to their incorporation into magnetic media. [text removed for publication] Our nanoparticle research has attracted a new spin-in company SiSaf Ltd. (2009) and by incorporating NIBEC's expertise in nanomaterials into its business plan, the company was able to grow to a valuation of £3.5m and employ 7 people in skilled technical positions.