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The School of Chemistry has a long track record of pioneering and innovative outreach activities aimed at stimulating public interest and understanding in chemistry research and its societal impact. During the period 2008-2013 it successfully communicated to a wide-ranging audience the significance of a series of "firsts" in the areas of nanoscience and materials for energy applications. Using YouTube, Royal Society Summer Science Exhibitions, roadshows and science festivals, this award-winning approach has engaged hundreds of thousands through digital media and thousands more face-to-face, raising public awareness, inspiring interest in science and delivering educational benefits for students and teachers alike.
The development and application, by a UCL and Royal Institution (UCL/RI) team, of a powerful range of computational and experimental techniques has had a major impact on understanding of catalysis at the molecular level. The translation of these approaches to industry — achieved through fellowships, collaborations and employment of trained UCL/RI scientists — has had substantial impact on the development and optimisation of key catalytic systems used in energy, environmental, bulk and fine chemicals production. Computational modelling software has been commercialised by Accelrys following interaction with the UCL/RI team. Products and processes at Johnson Matthey have been developed and enhanced over a shorter timescale, ultimately leading to good returns and a sustained market position. The approaches also provided evidence that platinum-containing vehicle emission catalysts are not a source of chloroplatinates in the environment and can therefore continue to be used.
Nature's Raincoats is a physical exhibition and a website providing easily accessible information and resources. These entities have had extensive use within the public understanding of superhydrophobic surfaces (extremely repellent to water), including The Royal Society Summer Science Exhibition, Cheltenham Science Festival, The Big Bang Fair, British Science Festival and Techfest (India) — reaching thousands of people in the UK and overseas. As well as impacting on improved public awareness, the research informed website provides a direct route to research expertise for companies within the UK and internationally and extends good practice of working with industry e.g. Rolls Royce.
The cost of goods is an especially important issue in developing commercially available agrochemicals, which must be manufactured on a large scale. Richard Compton's research at the University of Oxford has led to a step change in the understanding of heterogeneous reaction mechanisms for liquid — organic solid or liquid — inorganic solid processes involved in large-scale manufacturing processes. Compton's work has had particular impact on optimising the processes used by Syngenta AG in its manufacturing of agrochemicals. Since 2008 the insights gained on inorganic-base dissolution have been of great benefit to Syngenta in its development of scalable robust manufacturing processes, particularly in relation to production of its fungicide Amistar and insecticide Actara, which are two of the world's largest selling products of this type. In 2012 Syngenta achieved total sales of over $ 14 billion, $ 4.8 billion of this from fungicide and insecticide revenues.
The unique application of combinatorial chemistry in materials science at Southampton has directly underpinned the success of University spin-out, Ilika Technologies. Since 2008, the breadth of applications of the research has allowed Ilika:
Between 2008 and 2012, Ilika enjoyed considerable growth, doubling employment to 35 staff, increasing turnover by approximately 25% annually, and floating on the AIM with a market capitalisation of £18.7 million.
The underpinning research involved modelling the diffusion of hydrogen on silicon surfaces, and the electronic structure of dopant atoms on silicon surfaces. This data was used to inform, guide and develop the atomically precise manufacturing processes of Zyvex Labs. These processes remove hydrogen atoms from a silicon surface to create patterns with atomic precision for later overgrowth. As a result of the UCL research, Zyvex Labs has already obtained funding of $14 million, several jobs have been created, and at least two products are being brought to market.
The technology in this impact study is based on organofunctionalised silica materials that can address market needs for high purity in compounds that underpin many areas of the pharma, electronic and medical sectors as well as the recovery of limited resources such as precious metals that are used in diverse industries. Since the launch of the product portfolio in 2006, the materials have become embedded in purification or recovery steps in commercial production processes of leading mining (South Africa), pharmaceutical (UK) and petrochemical (Germany) companies and make a significant impact on the business of these companies as well as limiting waste of limited resources.
Aircraft icing is a significant factor in many aircraft accidents and incidents. Ice accretion on the wings has adverse aerodynamic effects, such as loss of lift and control, and ice can also block inlets into key flight sensors. Work by Richard Purvis and his Research Associate, Peter Hicks at UEA, in collaboration with AeroTex UK and QinetiQ, led to better understanding of how the impacts and splashing of water droplets influence the ice that forms on aircraft wings. This led to improved computer prediction codes, which are used by industry to improve design and help satisfy certification requirements.
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.
In partnership with the US company Nalco, the University's Surfactant & Colloid Group developed a new multifunctional technology (Clean n Cor) for the oil industry that both removes accumulated deposits at a metal surface (enabling "break-through" of corrosion inhibitor to the metal surface) and inhibits corrosion. Clean n Cor technology not only protects assets such as oil pipelines against corrosion but also maximises oil production through enhancing water injectivity (water flow per unit pressure drop). Since its launch in 2007, it is currently one of Nalco's fastest growing new technologies and is used at over 100 production locations worldwide.