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The growth and performance of Biofocus Galapagos Argenta (BGA) and Pulmagen Therapeutics (PT) are underpinned by research from the Imperial-based TeknoMed project that started in 1997. BGA was formed in 2010 through the acquisition of Argenta Discovery (AD) by Biofocus Galapagos for €16.5 million and is one of the world's largest drug discovery service organisations with 390 plus employees and turnover of €135 million [section 5, A]. PT was formed as a separate company to own the complete AD drug pipeline. It develops new medicines to treat asthma, cystic fibrosis and allergic diseases. In 2011 BGA signed agreements with PT for an initial £6million fee and with Genentech for £21.5million.
University of Huddersfield research in physical organic chemistry has delivered economic, industrial and societal benefits. It has led to process improvements in chemical manufacturing, most notably in the optimisation of the synthesis of antisense oligonucleotides and in the use of liquid ammonia as a solvent. It has also led to the development of new inhibitors of bacterial β-lactamases for use as antibacterials. The research team's expertise has been reflected in the success of IPOS (Innovative Physical Organic Solutions), a unit established in 2006 to carry out research in process and other areas of chemistry for the chemical industry. IPOS expanded significantly from 2009 to 2013 and has now collaborated with more than 150 companies, many of them based in Yorkshire/Humberside where regeneration is critically dependent on the success of new, non-traditional, high-technology firms and industries. Through these collaborative projects, IPOS has contributed to the growth and prosperity of both regional and national industry.
Durham selective direct fluorination methodology using fluorine gas has been scaled up by F2 Chemicals Ltd to supply the Pfizer company with multi-tonne quantities of a key pharmaceutical intermediate used in the synthesis of V-Fend (voriconazole). This antifungal agent has achieved global sales of $4.65bn from 2008-present and is used extensively for the treatment of invasive pulmonary aspergillosis. Multi-channel continuous flow gas/liquid microreactor technology for direct fluorination was licensed to the Asahi Glass Co (Japan) and other transformations enabled by fluorine gas are being exploited by a DU spin-out company, Brock Fine Chemicals Ltd.
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.
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.
Through research carried out under an EPSRC Teaching Company (KTP) award, we assisted an SME, CellPath, to develop the capacity to manufacture a novel set of dyes (Ortho Stains) for use in the Papanicolaou cervical smear test and other histological procedures. The company, previously mainly known for manufacture and sales of laboratory plastics etc, rapidly become the UK market leader in cytology stains, with over 50% of the domestic market, and exports to Finland, France, Italy, Japan, Norway, Sweden and the USA. As a result the company has increased turnover by 400% and the workforce has grown from 5 to 65 employees.
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.
University of Nottingham researchers have been at the forefront in promoting and establishing Green Chemistry in developing nations. Working with and influencing colleagues and policymakers in both the UK and Africa, they have increased awareness of the importance of introducing sustainable technologies that meet local communities' needs. As a result, they have invigorated the chemistry teaching curriculum in Ethiopia, placing Green Chemistry at its core, and helped shape the approaches of professional bodies, including the Royal Society of Chemistry, for the benefit of the developing world. This has led to what the British Council has described as "a sense of empowerment and confidence" among Ethiopian chemists.
The University of Nottingham's School of Chemistry has developed a novel method of incorporating thermally or chemically labile biologically active substances into polymers. This has been achieved by using supercritical carbon dioxide as a medium for the synthesis and modification of polymeric materials. The method has been employed as the basis for new drug-delivery devices whose viability in the healthcare sphere has been confirmed by patient trials. The spin-out company, Critical Pharmaceuticals Ltd, has delivered a range of economic benefits, including job creation, the securing of millions of pounds' worth of investment and a number of revenue-generating research collaborations.
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.