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Aston Business School has risen significantly across Business and Management Studies to 66th place in the world It follows being shortlisted for Business School of the Year by Times Higher Education The prestigious QS World University Rankings by Subject are based on academic reputation, employer reputation and citations. Aston University has risen to 66th place in the world in the 2024 QS World Rankings by Subject for Business and Management Studies. The QS World University Rankings by Subject are based on academic reputation, employer reputation and citations. These latest results recognise Aston Business School as among the best in the world for business and management studies. The rankings, released today by global higher education analyst QS Quacquarelli Symonds, provides independent comparative analysis on the performance of more than 16,400 individual university programmes, taken by students at more than 1,500 universities in 96 locations around the world, across 55 academic disciplines and five broad faculty areas. It follows a successful period for Aston Business School, which is part of an elite group of global business schools that hold the gold standard of ‘triple-crown’ accreditation from AACSB, AMBA and EQUIS, having recently been shortlisted for Business School of the Year by Times Higher Education (THE) and the QS Reimagine Education Awards, as well as success in the Shanghai rankings, which ranked Aston 13th in the UK for business administration. Professor Aleks Subic, Vice-Chancellor and Chief Executive of Aston University, said: “These latest rankings reinforce Aston University’s strong upward trajectory as we continue to climb the global rankings. Our recent successes reflect the concerted efforts and dedication of our exceptional academic community and stakeholders. “Strong global positioning of our Aston Business School is an integral part of the Aston 2030 Strategy that defines Aston as a leading university of science, technology and enterprise, measured by the positive transformational impact we achieve for our people, students, businesses and the communities we serve.” Professor Zoe Radnor, Pro Vice-Chancellor and Executive Dean for the College of Business and Social Sciences at Aston University, said: “I am delighted to see such a strong global performance for our business and management offering here at Aston University, which confirms Aston Business School as amongst the best in the world. “This is the latest external accolade in recognition of our excellence in teaching and research and reflects our strengths in working with industry, developing ethical business practices and providing students with a world-class education.”
Aston University research centre to focus on using AI to improve lives
• New centre specifically focuses on using AI to improve society • Current research is designed to improve transport, health and industry • “There have been a lot of reports focusing on the negative use of AI...this is why the centre is so important now.” Aston University researchers have marked the opening of a new centre which focuses on harnessing artificial intelligence (AI) to improve people’s lives. The Aston Centre for Artificial Intelligence Research and Application (ACAIRA) has been set up to become a West Midlands hub for the use of AI to benefit of society. Following its official opening, the academics leading it are looking to work with organisations and the public. Director Professor Anikó Ekárt said: “There have been a lot of reports focusing on the negative use of AI and subsequent fear of AI. This is why the centre is so important now, as we aim to achieve trustworthy, ethical and sustainable AI solutions for the future, by co-designing them with stakeholders.” Deputy director Dr Ulysses Bernardet added: “We work with local, national and international institutions from academia, industry, and the public sector, expanding Aston University’s external reach in AI research and application. “ACAIRA will benefit our students enormously by training them to become the next generation of AI practitioners and researchers equipped for future challenges.” The centre is already involved in various projects that use AI to solve some of society’s challenges. A collaboration with Legrand Care aims to extend and improve independent living conditions for older people by using AI to analyse data collected through home sensors which detect decline in wellbeing. This allows care professionals to change and improve individuals’ support plans whenever needed. A project with engineering firm Lanemark aims to reduce the carbon footprint of industrial gas burners by exploring new, more sustainable fuel mixes. Other projects include work with asbestos consultancy Thames Laboratories which will lead to reduced costs, emissions, enhanced productivity and improved resident satisfaction in social housing repairs and a partnership with transport safety consultancy Agilysis to produce an air quality prediction tool which uses live data to improve transport planning decisions. The centre is part of the University’s College of Engineering and Physical Sciences and its official launch took place on the University campus on 29 February. The event included a talk by the chair of West Midlands AI and Future Tech Forum, Dr Chris Meah. He introduced the vision for AI within the West Midlands and the importance of bringing together academics, industry and the public. Current research in sectors such as traffic management, social robotics, bioinformatics, health, and virtual humans was highlighted, followed by industry talks from companies Smart Transport Hub, Majestic, DRPG and Proximity Data Centres. The centre’s academics work closely with West Midlands AI and Future Tech Forum and host the regular BrumAI Meetup. About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
Aston University and medicine manufacturer Catalent formed a Knowledge Transfer Partnership to identify more effective formulation additives The new selection matrix makes choosing the right additive quicker and the medicine development process shorter The project has been rated as ‘outstanding’ by Innovate UK A partnership between Aston University and contract medicine manufacturer Catalent has led to a faster process to identify the best ingredients for optimal medicine formulations, and has been rated as outstanding by Innovate UK. Catalent is a global leader in enabling pharma, biotechnology and consumer health partners to optimise product development, launch and full life-cycle supply for patients around the world. Its proprietary Zydis orally dissolving tablet (ODT) technology enables the absorption of drugs or active pharmaceutical ingredients (APIs) through the mouth tissues, which is much faster than absorption through the gut. However, many APIs have poor pre-gastric absorption and need to be combined with suitable excipients, or additives, to bind the active ingredients and speed up the process of dissolving and absorbing via the pre-gastric route. Identifying suitable excipients for the formulation is difficult, and so the Knowledge Transfer Partnership (KTP) between Aston University and Catalent was set up to develop a faster, more efficient approach. A KTP is a three-way collaboration between a business, an academic partner and a highly qualified researcher, known as a KTP associate. The UK-wide programme helps businesses to improve their competitiveness and productivity through the better use of knowledge, technology and skills. Aston University is a sector leading KTP provider, with 80% of its completed projects being graded as very good or outstanding by Innovate UK, the national body. The project was led by Aston University’s Afzal Mohammed, professor of pharmaceutics in the School of Pharmacy and associate dean (impact and knowledge exchange) for the College of Health and Life Sciences, who has expertise in the design and optimisation of orally dissolving tablet formulation. He was supported by other colleagues from Aston Pharmacy School including Dr Daniel Kirby, whose main area of research is the formulation of age-appropriate medicines for the extremes of life, Dr Affiong Iyire, who has research expertise in mucosal drug delivery, and Dr Raj Badhan, who is a pharmacokinetics expert with research interests in analytical approaches to predict oral drug absorption. Dr Ruba Bnyan, who has a master’s degree and a PhD in pharmaceutical drug formulation, as well as experience in cell-based models, was the KTP associate for the project. The KTP partners developed a selection matrix, whereby, based on the API properties, Catalent formulation scientists can quickly identify excipients that will improve the absorption of the drug through the mouth. Adopting this novel tool allows for quicker and more efficient drug development and has the potential to increase the number of Zydis ODT candidates in the pipeline for future development. Desmond Wong, product development supervisor at Catalent, said: “This project has exceeded our initial expectations and has the potential to accelerate product development for our clients. Our strong relationship with the Aston University team on this KTP project highlights the transformative potential of collaborative research and its impact on pharmaceutical innovation.” Professor Mohammed said: “This has been a very successful project, which has been rated as ‘outstanding’ by Innovate UK. We plan to put it forward for a KTP award and are looking forward to continuing working with Catalent on our next KTP project.” For more information on the KTP visit the webpage.
Aston University to train the UK’s next generation of decarbonisation experts
Consortium led by the University is to receive almost £11 million to open doctoral training centre Will focus on use of biomass to replace fossil fuels and removal of CO2 “…part of the UK’s biggest-ever investment in engineering and physical sciences doctoral skills”. Aston University is to train the next generation of scientists tasked to remove greenhouse gases from the environment. A consortium led by the University is to receive almost £11 million to open a doctoral training centre which will focus on leading the UK towards net zero. The centre, based at Aston University, will bring together world-leading research expertise and facilities from the University of Nottingham, Queens University Belfast and the University of Warwick and more than 25 industrial partners. The funding has been announced by the UK science, innovation and technology secretary Michelle Donelan. The centre is to receive almost £8 million of government money while the remainder will be made up through match funding and support from industry and the four universities. The government has described it as part of the UK’s biggest-ever investment in engineering and physical sciences doctoral skills, totalling more than £1 billion. The Aston University centre will focus on the use of biomass to replace fossil fuels and removal (or capture) of CO2 from the atmosphere, with the potential to create new sources of fuels and chemicals. Integration of these two areas will lead to significant cost and energy savings. Called NET2Zero, the centre will train PhD students across the full range of engineered greenhouse gas removal techniques including direct air capture, CO2 utilisation (including chemical and material synthesis), biomass to energy with carbon capture and storage, and biochar. The students will work in the centre’s laboratories exploring the conversion of feedstock into alternative energy, improving conversion processes and measuring how the new technologies will impact the economy. Supported by a range of relevant industrial, academic and policy partners the centre will equip students to develop the broad range of skills essential for future leaders in decarbonisation. NET2Zero will be led by Professor Patricia Thornley, director of Aston University’s Energy and Bioproducts Research Institute (EBRI). She said: “I am delighted that this centre for doctoral training has been funded. The climate emergency is so stark that we can no longer rely on demand reduction and renewables to meet our decarbonisation targets. “If we are to have greenhouse gas removal options ready in time to be usefully deployed, we need to start now to expand our knowledge and explore the reality of how these can be deployed. This partnership of four leading UK universities with key industrial and policy partners will significantly augment the UK’s ability to deliver on its climate ambitions.” “We are absolutely delighted to be working with our partners to deliver this unique and exciting programme to train the technology leaders of the future. Our students will deliver research outcomes that are urgently needed and only made possible by combining the expertise and resources of all the centre’s academic and industry partners.” Science and technology secretary, Michelle Donelan, said: “As innovators across the world break new ground faster than ever, it is vital that government, business and academia invests in ambitious UK talent, giving them the tools to pioneer new discoveries that benefit all our lives while creating new jobs and growing the economy. “By targeting critical technologies including artificial intelligence and future telecoms, we are supporting world class universities across the UK to build the skills base we need to unleash the potential of future tech and maintain our country’s reputation as a hub of cutting-edge research and development.” Centres for doctoral training have a significant reputation in training future UK academics, industrialists and innovators who have gone on to develop the latest technologies. The University of Nottingham’s Dr Eleanor Binner said: “We are absolutely delighted to be working with our partners to deliver this unique and exciting programme to train the technology leaders of the future. Our students will deliver research outcomes that are urgently needed and only made possible by combining the expertise and resources of all the Centre’s academic and industry partners.” Her colleague Professor Hao Liu added: “We look forward to providing our best support to the NET2Zero CDT, including using our past and existing successful experience in leading other centres, to make this an exemplar.” Overall, there will be 65 new Engineering and Physical Sciences Research Council (EPSRC) centres for doctoral training which will support leading research in areas of national importance including the critical technologies AI, quantum technologies, semiconductors, telecoms and engineering biology. The funding is from a combination of £500 million from UK Research and Innovation and the Ministry of Defence, plus a further £590 million from universities and business partners. Notes to Editors EPSRC and BBSRC Centre for Doctoral Training in Negative Emission Technologies for Net Zero (NET2ZERO) Led by: Professor Patricia Thornley, Aston University The Engineering and Physical Sciences Research Council (EPSRC) is the main funding body for engineering and physical sciences research in the UK. Our portfolio covers a vast range of fields from digital technologies to clean energy, manufacturing to mathematics, advanced materials to chemistry. EPSRC invests in world-leading research and skills, advancing knowledge and delivering a sustainable, resilient and prosperous UK. We support new ideas and transformative technologies which are the foundations of innovation, improving our economy, environment and society. Working in partnership and co-investing with industry, we deliver against national and global priorities. The Biotechnology and Biological Sciences Research Council (BBSRC) invests in world-class bioscience research and training on behalf of the UK public. Our aim is to further scientific knowledge, to promote economic growth, wealth and job creation and to improve quality of life in the UK and beyond. Funded by government, BBSRC invested £451 million in world-class bioscience in 2019-20. We support research and training in universities and strategically funded institutes. BBSRC research and the people we fund are helping society to meet major challenges, including food security, green energy and healthier, longer lives. Our investments underpin important UK economic sectors, such as farming, food, industrial biotechnology and pharmaceuticals. About Centres for Doctoral Training A CDT trains doctoral students with each centre focused on a specific theme or topic. Most CDTs will support five cohorts (a new cohort starting each academic year) with a cohort supporting an average of thirteen students. Fourteen of the centres will have four cohorts rather than five. EPSRC supports doctoral students through three training routes (Doctoral Training Partnerships, ICASE awards and CDTs), and in the last 30 years has supported over 50,000 doctoral students. About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
Aston University establishes Design Factory Birmingham as a global innovation hub for Midlands
• Birmingham becomes the latest city to join a global network of design and digital consultancies • Based at Aston University, expertise in areas such as 3D printing will be shared to boost the local economy • It will include a space named after the late Dame Margaret Weston, former director of the Science Museum. Birmingham has become the latest city to join a global network of design and digital consultancies set up to solve real world challenges through effective problem-solving. Design Factory Birmingham will be based at Aston University, one of just two hubs in the UK outside of London. The city officially joined the Design Factory Global Network on Wednesday 14 February and as a result Aston University will open the doors to its state-of-the-art facilities to other organisations. Shared understanding and common ways of working enable Design Factories in the network to collaborate efficiently across cultures, time zones and organisational boundaries fostering radical innovations. Businesses, industry partners, entrepreneurs, staff and students will be able to collaborate on projects that will involve technologies such as 3D printers and design software. The University will be sharing its expertise in artificial intelligence, additive manufacturing, data science and web, app and graphic design to boost the local economy. Currently there are 39 innovation hubs in 25 countries across five continents based in universities and research organisations. The Design Factory will include a space named after the late Dame Margaret Weston, former director of the Science Museum. Dame Margaret had studied electrical engineering at one of Aston University’s predecessor institutions and went on to be the first woman appointed to lead a national museum. She left a generous gift to Aston University in her will, which will be commemorated in the Birmingham Design Factory in honour of her engineering background. (l-r) Felipe Gárate, Professor Aleks Subic, Professor Stephen Garrett The Vice-Chancellor and Chief Executive of Aston University, Professor Aleks Subic said: “The Design Factory Birmingham is another key milestone in our ambition to be a leader in science, technology, and innovation, driving socio-economic transformation in our city and region. It is important to the Midlands because it will make a direct contribution to innovation led growth in partnership with industry and businesses. However, this is not only a local launch but also a global launch as Design Factory Birmingham is a global innovation hub, and an integral part of the Design Factory Global Network involving 39 innovation hubs around the world.” The head of the Design Factory Global Network Felipe Gárate from Aalto University in Helsinki, Finland attended the official launch in Birmingham. He said: “I am delighted to welcome Aston University as our latest member. “We are on a mission to create change in the world of learning and research through passion-based culture and effective problem-solving. “Shared understanding and common ways of working enable Design Factories in the network to collaborate efficiently across cultures, time zones and organisational boundaries fostering radical innovations.” The launch event was used to showcase design projects that are already running and companies attending were given the chance to meet placement students who could boost their existing expertise. Associate Pro-Vice-Chancellor and Deputy Head of the College of Engineering and Physical Sciences, Professor Tony Clarke said “This unique space on campus will bring together multi-disciplinary teams of hands-on innovators, collaborative thinkers and creators. “We will be delivering a wide range of services including software application development, product design, creating protypes using a variety of technologies including laser and water cutting, digital and design training courses, and helping companies obtain innovation grants for projects.” As a member of the global network the Birmingham Design Factory at Aston University will participate in two global design challenges - one run by McDonalds and the other run by the Ford Motor Company. ENDS Notes to Editors There are 39 Design Factory hubs around the world https://dfgn.org/ In the UK there are three; London, Birmingham and Manchester. About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
Covering King Charles? Our Expert can Help
It's news that has shocked the world and has citizens across Britain and the Commonwealth as well loyal watchers of the British monarchy in deep concern. This week, King Charles was diagnosed with cancer. News was released Monday in a statement from the palalce. This news will raise many questions both in the UK and abroad. Will his medical condition make him consider stepping down? Is William ready to be King? Is there still a time, place and relevance for Royals in these modern times? If you're covering - let our experts help. Dr. Glen Duerr is a citizen of three countries. He was born in the United Kingdom, moved to Canada as a teenager, and then to the United States to obtain his Ph.D. His teaching and research interests comparative politics and international relations theory. Dr. Duerr is available to speak to media regarding this topic– simply click on his icon to arrange an interview.
Image shows how tiny water channels control how water enters and exits cells through their membranes The Aston Institute for Membrane Excellence (AIME) will be set up with a £10m grant from Research England AIME will be led by Professor Roslyn Bill from Biosciences and Professor Paul Topham from Chemical Engineering and Applied Chemistry The globally unique institute will use biomimetic polymer membranes for applications such as water purification and drug development Aston University will establish the Aston Institute for Membrane Excellence (AIME), a globally unique, cross-disciplinary institute to develop novel biomimetic membranes, after receiving a major grant of £10m from Research England. AIME will be led by Professor Roslyn Bill, from the School of Biosciences, with co-lead Professor Paul Topham from the department of Chemical Engineering and Applied Chemistry (CEAC). Membranes, both biological and synthetic, are hugely important in many sectors. For example, the world’s top ten selling human medicines all target proteins in biological membranes, while synthetic polymer membranes are used in the US$100bn/year water purification industry. The team behind AIME believes that the full potential of membranes will only be realised by an interdisciplinary group spanning biology, physics and chemistry that can investigate membranes holistically. Professor Bill, a European Research Council (ERC) Advanced grantee leads Aston Membrane Proteins and Lipids (AMPL) research centre of excellence that studies the structure and function of membrane proteins and associated lipids. Professor Topham leads Aston Polymer Research Group (APRG), which investigates the nanoscale behaviour of block copolymers (a type of polymer with a structure made of more than one type of polymer molecule) and polymer technologies for membranes. AMPL and APRG have already begun collaborative research and AIME will bring together the complementary expertise of both research clusters into one institute. AIME will initially comprise the eight researchers from AMPL and APRG. Alongside the co-leads Professor Bill and Professor Topham, will be Dr Alan Goddard, Professor Andrew Devitt, Professor Corinne Spickett, Dr Alice Rothnie, Dr Matt Derry and Dr Alfred Fernandez. It plans to recruit three further academics, six tenure-track research fellows, three postdoctoral research assistants (PDRAs), six PhD students, a research technician and a business development manager. Importantly, AIME will work with many existing Aston University colleagues to build a comprehensive research community focused on all aspects of membrane science. The new AIME team will focus on the development of bioinspired, highly selective polymer structures for applications in water purification and waste remediation, nanoparticles loaded with therapeutic molecules to treat disorders ranging from chronic wounds to neurological injuries, and the purification of individual membrane proteins with polymers to study them as drug targets. The vision is for AIME to become a ‘one-stop shop’ for interdisciplinary, translational membrane research through its facilities access and expertise, ideally located in the heart of the country. Professor Bill said: “The creation of AIME is ground-breaking. Together with Aston’s investment, E3 funding will deliver a step-change in scale and the rate at which we can grow capacity. We will address intractable scientific challenges in health, disease, and biotechnology, combining our world-class expertise in polymer chemistry and membrane biology to study membranes holistically. The excellence of our science, alongside recent growth in collaborative successes means we have a unique opportunity to deliver AIME’s ambitious and inclusive vision.” Professor Topham said: “We are really excited by this fantastic opportunity to work more closely with our expert colleagues in Biosciences to create advanced technology to address real world problems. From our side, we are interested in molecular engineering, where we control the molecular structure of new materials to manipulate their properties to do the things that we want! Moreover, we are passionate about a fully sustainable future for our planet, and this investment will enable us to develop technological solutions in a sustainable or ‘green’ way.” Professor Aleks Subic, Vice-Chancellor and Chief Executive of Aston University, says: “Our new Aston Institute for Membrane Excellence (AIME) will be a regional, national, and international research leader in membrane science, driving game-changing research and innovation that will produce a pipeline of high-quality research outcomes leading to socioeconomic impact, develop future global research leaders, create advanced tech spinout companies and high value-added jobs for Birmingham and the West Midlands region. Its establishment aligns perfectly with our 2030 strategy that positions Aston University as a leading university of science, technology and enterprise.” Steven Heales, Policy Manager (Innovation) at the West Midlands Combined Authority, said: “WMCA is delighted to see Research England back the Aston Institute for Membrane Excellence. This will enable Aston University’s excellent academics and research community to work closely with businesses to make advances in membrane technology and applications. “In 2023 the West Midlands Combined Authority agreed a Deeper Devolution Trailblazer Deal with Government, which included a new strategic innovation partnership with Government. Projects like AIME are exactly the kind of impact we expect this new partnership to generate, so watch this space.” Lisa Smith, chief executive of Midlands Mindforge, the patient capital investment company formed by eight Midlands research-intensive universities including Aston University, said: “This grant is an important vote of confidence in the Midlands scientific R&D ecosystem. AIME will play an important role in the future research of pioneering breakthroughs in membrane science and enable the world-leading research team at Aston University to develop solutions to real world problems. We look forward to closely working with the Institute and nurturing best-in-field research being undertaken at Aston out of the lab and into the wider society so it can make a positive impact”. Rob Valentine, regional director of Bruntwood SciTech, the UK’s leading developer of city-wide innovation ecosystems and specialist environments and a strategic partner in Birmingham Innovation Quarter, said: "As a proud supporter of the Aston Institute for Membrane Excellence (AIME), I am thrilled at the launch of this groundbreaking initiative. AIME exemplifies Aston University's commitment to advancing cutting-edge interdisciplinary research and further raises the profile of the region’s exemplary research capabilities and sector specialisms. AIME's vision of becoming a 'one-stop shop' for translational membrane research, strategically located at the heart of the country, aligns perfectly with our strategy at Bruntwood SciTech. We are committed to working with partners, including Aston University, to develop a globally significant innovation district at the heart of the UK where the brightest minds and most inspiring spaces will foster tomorrow’s innovation.” Membrane research at Aston University has also recently received two other grants. In November 2023, Professor Bill received £196,648 from the Biotechnology and Biological Sciences Research Council’s Pioneer Awards Scheme to understand how tiny membrane water channels in brain cells keep brains healthy. In December 2023, a team led by AIME team-member Dr Derry received £165,999 from the Engineering and Physical Sciences Research Council to develop biomimetic membranes for water purification. For more information about AIME, visit the webpage.
Aston University invests £18 million to support doctoral research
Funding to recruit and nurture tomorrow’s researchers Investment will support University’s vision to be a leading university of science, technology and enterprise Investment in research at the interfaces of science, health and technology. Aston University is announcing investment of £18 million in doctoral research funding to recruit and nurture the research leaders of tomorrow. The investment supports the University’s vision to be a leading university of science, technology and enterprise. It will fund research at the interfaces of science, health, technology and enterprise, socio-economic transformations driven by digitalisation, and pressing economic, social and other challenges addressed by researchers in Aston University’s colleges and research institutes. Successful candidates will be recruited for the studentships on the basis of excellence and provided with the support they need to excel as doctoral researchers. They will drive forward their own research projects and make significant contributions to existing innovative research projects and teams. A range of support will be available, including full studentships covering the cost of UK fees and student stipend paid at rates equivalent to UKRI-funded studentships, as well as a fund for research expenses. Professor Phil Mizen, Associate Pro-Vice-Chancellor Researcher Development at Aston University, said: “This investment represents the University’s strategic commitment to supporting inclusive, entrepreneurial and translational research with a clear transformational impact so that the people, businesses and communities it serves can thrive economically, socially and culturally. “I am delighted that, through these studentships, we are able to provide more opportunities for doctoral researchers to gain essential skills and to foster excellence in research and innovation.”
Expert reaction to the UK AI Safety Summit
Today the UK government announced a "world first agreement" on how to manage the riskiest forms of AI. It focuses on so-called "frontier AI" - what ministers consider highly advanced forms of the tech - with as-yet unknown capabilities. The agreement, signed by countries including the US, the EU and China, was announced at the UK's AI Safety Summit. Dr Alina Patelli, Senior Lecturer in Computer Science, Aston University, comments: “A summit on AI safety is long overdue. As is the case with all groundbreaking technologies, AI’s transformative potential for public good is only matched by its risks, which are unlikely to be successfully avoided, if AI tech design and deployment are left unregulated and therefore open to misuse, either intentionally or accidentally. The scope of the summit is appropriate, reflective of Government’s cautious approach to managing interactions with AI safety experts from multiple nations and disciplines: the summit focus is kept narrow, to five objectives only, and the number of participants is wisely limited to 100, to keep the conversation productive.” What is likely to come out of this summit? “The summit’s main output will most likely be a bare-bones regulatory document comprising (1) a shared understanding of AI (i.e., a generally accepted definition of the term reflective of all summit participants’ views, not just those of tech experts), (2) a list of major risks associated to AI misuse, both in terms of potential damage as well as likelihood of becoming a reality, and (3) a policy draft outlining the core elements that a yet-to-be-developed governance framework should include.” What AI safety could/should look like? “Although it would be premature to venture a definition of AI safety ahead of the summit, one thing that is certain is that a comprehensive, therefore effective, AI regulatory framework would encompass more than just laws. Non-legally binding codes of conduct, tech design and development processes that are bound by moral and ethical values, both in the commercial ecosystem, as well as when it comes to individual entrepreneurs, revised open-access licenses under which AI should be used in the public domain, etc. are equally important pieces. The best way to integrate all these in a cohesive, overarching governance plan is perhaps a topic to explore in one of the post-summit events.” What are the potential practicalities for a route forward towards safe AI? “The practical way to systematically regulate AI is incremental. Initially, the development and application of those AI tools deemed to be high-risk will most likely be restricted to controlled environments, where the potential benefits justify the risks and where sound mitigation procedures can be quickly and effectively enforced to mitigate those risks. As regulations become better prescribed, AI’s (safe and legal) application space will gradually expand, making its benefits available to larger groups of people without any of the downsides.” To interview Dr Alina Patelli or request further details contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
• Rice straw could be a fuel of the future in rural Philippines • Across Asia 300 million tonnes of rice straw go up in smoke every year • New proposals includes scaling up harvesting system with straw removal, biogas-powered rice drying and storage and efficient milling. An Aston University bioenergy researcher has been explaining how rice straw could be a fuel of the future in rural Philippines. Dr Mirjam Roeder who is based at the University’s Energy & Bioproducts Research Institute (EBRI) is collaborating with the UK company Straw Innovations Ltd, Southeast Asian Regional Center for Graduate Study and Research in Agriculture (SEARCA) and Koolmill Systems Ltd to showcase their research. The Food and Agriculture Organisation (FAO) states that rice is the number one food crop globally and 91% of it is produced and consumed in Asia. As a crop it is responsible for 48% of global crop emissions and for every kilogram of rice, a kilo of straw is produced. Across Asia 300 million tonnes of rice straw go up in smoke every year when burnt after harvest, releasing emissions and air pollutants that triple risks of increased respiratory diseases and accelerate climate change. To raise awareness of sustainable uses for rice straw Dr Roeder has travelled to the sixth International Rice Congress in Manila, Philippines to explain the potential of the emerging technology. Rice straw is an underdeveloped feedstock and can be collected and digested to produce biogas, unlocking sustainable straw management options and renewable energy for farmers using anaerobic digestion (AD) from rice straw. Dr Roeder has been working with Straw Innovations on their UK Innovate project demonstration facility in the Philippines, the Rice Straw Biogas Hub, which is scaling up a complete harvesting system with straw removal, biogas-powered rice drying and storage, together with efficient milling. Craig Jamieson, Straw Innovations said: “The International Rice Congress is only held every four years and is a key event for coordinating and tracking progress in rice research. “Our partnership with Aston University and SEARCA adds independent, scientific rigour to the work we do and amplifies our message to government policy makers. We are grateful to Innovate UK for their ongoing support through the Energy Catalyst Programme, which is accelerating our development.” At the conference Dr Roeder has been explaining how independent environmental and social research can increase farmer incomes, equality of opportunity, food security and decarbonisation benefits. She said: “Engaging with stakeholders and working in partnership across organisations is vital to the successful adoption of new technologies. I am delighted to have had the opportunity to host an event with our project partners at this prestigious conference, bringing the cutting-edge research of using rice straw for clean energy to the forefront of the rice research community and supporting the pathway to net zero.” Dr Glenn B Gregorio, Center Director of SEARCA, added: "We are gaining insights into the environmental impact of rice straw utilisation and implementing policies to unleash its potential to empower us to make informed decisions that are instrumental to climate change mitigation and decarbonisation," Professor Rex Demafelis, University of the Philippines, is also working with SEARCA and is leading the project on life cycle analyses and measurements of rice straw greenhouse gas emissions. He said: “Rice straw is a valuable resource, and we are grateful to be part of this team which seeks to harness its full potential and promote circularity, which would ultimately contribute to our goal of reducing our greenhouse gas emissions.” ENDS The Supergen Bioenergy Hub works with academia, industry, government and societal stakeholders to develop sustainable bioenergy systems that support the UK’s transition to an affordable, resilient, low-carbon energy future. The Hub is funded jointly by the Engineering and Physical Sciences Research Council (EPSRC) and the Biotechnology and Biological Sciences Research Council (BBSRC) and is part of the wider Supergen Programme. For further information contact Rebecca Fothergill and Catriona Heaton supergen-bioenergy@aston.ac.uk Follow us on Twitter @SuperBioHub Visit our website at supergen-bioenergy.net Visit our YouTube Channel to watch the video on Carbon Balance FAO: RICE PRODUCTION IN THE ASIA-PACIFIC REGION: ISSUES AND PERSPECTIVES - M.K. Papademetriou* (fao.org) https://www.fao.org/3/x6905e/x6905e04.htm About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
