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Dr Paul Gladston's (Associate Professor of Critical Theory and Visual Culture, Nottingham, 2005- present) research has served to problematize and add complexity to the public understanding of the relationship between contemporary Chinese art and the wider conditions of its making and showing both within and outside the Peoples' Republic of China (PRC). The Chief Curator of the Hayward Gallery exhibition Art of Change: New Directions from China (2012) drew on Gladston's expertise in the exhibition's presentation. The exhibition attracted over 22,000 visitors, with international media coverage leading to wider critical engagement in broadcast and social media. A challenging review of the exhibition in The Guardian by the high profile artist Ai Weiwei, followed by Gladston's response, stimulated broader public debate around contemporary Chinese art.
Developing renewable sources of energy has to go hand in hand with reducing energy demand through increased energy awareness and behavioural change. To this end a multidisciplinary consortium of researchers, led by Professor Christopher Howe (Biochemistry), have developed several biophotovoltaic (BPV) devices for off-grid electricity generation, and as educational tools. This has resulted in impact on commerce (i.e. the acquisition of a BPV spinout company by Ortus Energy Ltd in 2009 through share exchange), on society and culture (an award-winning `Moss Table' developed by the consortium, which incorporates BPV technology, has been exhibited internationally since 2011 and has received extensive international media coverage) and on educational practices (a prototype BPV educational tool for schools has been developed by Howe and colleagues in 2013 and trialled with 6th form students).
Spatial models developed from research in the School of Geography about population movements in cities are informing commercial planning and public policy analysis. The conduit for this impact is GMAP Ltd., a spin-out company established by the University of Leeds, which has used the models as the basis for its MicroVision and RetailVision software. Companies including Ford, Exxon, HBoS and Asda-Walmart have used this software for a range of purposes including maximizing individual stores' profitability and reconfiguring entire networks to fit changing market conditions. Government agencies have also used the software to optimize resource allocation in policing, education and healthcare.
Collaborations funded through EPSRC Interact and RCUK UK-China Science Bridge resulted in QUB's advanced control research having important economic and environmental impact in China, Pakistan, Vietnam. This includes the creation of new core modules for the Shanghai Automation Instrumentation Co (SAIC) SUPMAX Distributed Control System series of products now in use for whole plant monitoring and control to maximise energy efficiency and reduce pollutant emissions. These products have since 2008 increased SAIC's revenue by over $50M p.a. Related networked monitoring technologies have been successfully deployed in Baosteel's hot-rolling production lines and in the Nantong Water Treatment Company that treats 20,000 tonnes of industrial waste water daily.
Trachoma, caused by ocular infection with Chlamydia trachomatis, is the leading infectious cause of blindness. Research by Professors David Mabey and Robin Bailey, LSHTM, has shown that a single oral dose of azithromycin is an effective, feasible mass treatment and could eliminate trachoma from affected communities. As a result, the manufacturer Pfizer agreed to donate azithromycin to trachoma control programmes for as long as necessary and WHO established an Alliance for the Global Elimination of Blinding Trachoma by 2020. Since 2008, 205m azithromycin doses have been donated, and WHO elimination targets have been achieved in nine countries.
The Welsh School of Architecture (WSA) is recognised internationally for its research in developing advanced computational numerical models for simulating the energy and environmental performance of the built environment. These models have been used by leading design practices in the design of major buildings and urban developments. This impact case study presents three models from this research activity that have been widely taken up by industry worldwide, namely, the `building energy' model HTB2, the urban scale `energy and environment prediction' framework EEP and the `building environment' model ECOTECT.
Application of the models, often linked (e.g. HTB2 is the numerical engine for EEP and is accessible within the ECOTECT framework), has resulted in extensive environmental benefits, through reductions in global CO2 emissions. Additionally, there has been a marked impact on practitioners and professional practices, through new guidelines for major international developments (e.g. Pearl Island Qatar and the Chongqing Ba'nan Low Carbon Development).
Research by the Institute of Aquaculture has made a significant contribution to the development of effective fish vaccines, some of which have been commercialised and are used widely within the aquaculture industry. The majority of farmed fish in the UK are vaccinated (44 million salmon and 7.5 million rainbow trout in 2012 alone) with vaccines developed at Stirling, resulting in vast improvements in survival and fish health, and a sustained minimal use in antibiotics through mass vaccination. Vaccines have been developed for all the major farmed species in Europe, and recently the first vaccine for Pangasius catfish in Vietnam (>2 million tonne).
Research conducted by the Centre for the Study of Poverty and Social Justice (CSPSJ) led to a new way of assessing child poverty in developing countries. This novel method (termed the Bristol Approach) resulted in the United Nations General Assembly's adoption, for the first time, of an international definition of child poverty (2006). It also underpinned UNICEFs Global Study on Child Poverty and Disparities (2008-10), which was run in over 50 countries. In the last ten years, the CSPSJ's work has put child poverty at the centre of international social and public policy debates. Its researchers have advised governments and international agencies on devising anti-poverty strategies and programmes that specifically meet the needs of children, and have significantly influenced the way child poverty is studied around the world. The Centre has developed academic and professional training courses for organisations like UNICEF on the issues of children's rights and child-poverty. Our work has also spurred NGOs such as Save the Children to develop their own child-development indices, and so has had a direct and profound impact on the lives of poor children around the planet.
Professor Gilbert's research identified retinopathy of prematurity (ROP) to be a major cause of blindness in children in middle-income countries and cities in Asia, and delineated those infants most at risk. Since Gilbert joined LSHTM in 2002, her research and advocacy have led to ROP being prioritised for control by the Pan American Health Organization, with regional guidelines developed for Latin America, and national guidelines in many middle-income counties. Programmes for control are expanding and improving. Six Latin American countries have made eye examination mandatory. Although difficult to quantify, these initiatives are preserving the sight of many thousands of infants.