Experts Matter. Find Yours.
Connect for media, speaking, professional opportunities & more.
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.
The Fed’s Interest Rate Decision Due Today: Is Inflation Creeping Back Up? | Media Advisory
Recent economic indicators suggest a worrying trend: inflation may be on the rise again. This media alert calls on journalists to investigate the underlying causes of this potential uptick, its implications for consumers, businesses, and policymakers, and the measures being taken to mitigate its impact. The discussion will span from the basics of inflationary pressure to the real-world effects on the cost of living and economic stability. Key areas of interest include: Drivers of Inflation: Identifying the economic factors contributing to the increase. Impact on the Average Consumer: How rising prices affect daily life and purchasing power. Government and Central Bank Responses: Policies and actions to curb inflation and protect the economy. Global Inflation Trends: Comparing the situation with inflationary trends in other countries. Investor Sentiment and Market Reactions: The financial markets' response to inflation fears. Long-Term Economic Outlook: Projections for the economy in light of potential inflationary pressures. For journalists seeking research or insights for their coverage on this topic, here is a select list of experts. Isabella Weber Associate Professor of Economics · University of Massachusetts Amherst John T. Harvey Professor · Texas Christian University Narayana Kocherlakota Lionel W. McKenzie Professor of Economics · University of Rochester James G. Devine Professor Emeritus of Economics · Loyola Marymount University To search our full list of experts visit www.expertfile.com Photo by engin akyurt
Scandals, Health Scares and Sloppy Mistakes - Are the Royals in Turmoil? | Media Advisory
The British Royal Family finds itself at the center of an unprecedented media storm, grappling with a series of scandals, health scares, and public gaffes. This media alert invites journalists to delve into the causes and consequences of the recent tumult within the monarchy, examining its impact on public perception, the institution's future, and the broader implications for society's relationship with celebrity and authority. Key areas of focus include: Timeline of Recent Royal Controversies: A detailed look at the events causing widespread media attention. Public Perception and Royal Image: How these incidents have affected the public's view of the monarchy. The Role of the Media in Shaping Narratives: Analysis of media coverage and its impact on the situation. Mental Health and the Public Eye: The toll of public scrutiny on the Royals and lessons for broader society. The Future of the Monarchy: Speculations on potential changes within the institution and its place in modern Britain. Comparison with Historical Royal Scandals: Contextualizing current events within the long history of royal controversies. For journalists seeking research or insights for their coverage on this topic, here is a select list of experts. Carolyn Harris Historian, Author, Royal Commentator, Instructor, University of Toronto School of Continuing Studies Derek Arnold Senior Instructor, Communication | College of Liberal Arts and Sciences · Villanova University Ruth McClelland-Nugent, PhD Chair History, Anthropology & Philosophy · Augusta University To search our full list of experts visit www.expertfile.com Photo by Kutan Ural
Oprah Hosts Primetime Special About Weight Loss Drugs on ABC | Media Advisory
Oprah Winfrey, a revered media mogul and advocate for health and wellness, is set to host a groundbreaking primetime special on ABC, focusing on the burgeoning field of weight loss drugs. The new special follows Winfrey’s exit from the board of weightwatchers, where she served for nearly a decade after acquiring a 10% stake in the company. This special promises to shed light on the science behind popular weight loss medications Ozempic, Mounjaro and Wegogy. As obesity rates continue to climb globally, the discussion around weight loss solutions becomes increasingly pertinent, touching on public health, self-image, and the pharmaceutical industry's role in shaping health standards. Key topics of interest include: Science and Effectiveness of Weight Loss Drugs: Exploring how these medications work and their success rates. Personal Stories of Transformation: Individuals' journeys with weight loss drugs, including challenges and triumphs. Ethical and Societal Implications: The debate over body image, health standards, and drug dependency. Regulatory Perspective and Safety: How these drugs are approved and monitored for public use. Impact on the Healthcare System: The potential effects on healthcare costs and accessibility. Cautions and Concerns: Are there serious side-effects and what are the risks related to taking these drugs? Future of Obesity Treatment: Innovations and next steps in treating obesity with pharmaceuticals. For journalists seeking research or insights for their coverage on this topic, here is a select list of experts. Rebecca Puhl, Ph.D. Professor of Human Development and Family Studies · University of Connecticut Professor Paul Gately Carnegie Professor of Exercise and Obesity and Co-Director of the Applied Centre for Obesity Research · Leeds Beckett University Rebecca Pearl Assistant Professor · University of Florida Jan D. Hirsch Founding Dean, School of Pharmacy and Pharmaceutical Sciences · UC Irvine Amy Gorin, Ph.D. Professor, Department of Psychological Sciences · University of Connecticut James Lenhard, Jr., M.D., FACE, FACEP Medical Director · ChristianaCare To search our full list of experts visit www.expertfile.com. Photo by Total Shape
Amid "Likes" and "Shares," Facebook Jeopardizes Children's Health and Safety
On February 4, 2004, a 19-year-old Mark Zuckerberg launched “TheFacebook.” Developed in his Harvard University residence hall, it began as a networking service for his roughly 7,000 classmates. Today, it is the most popular social media platform in existence, boasting over three billion monthly active users worldwide. Through two decades of “likes” and “shares,” Facebook has transformed how people connect, interact and think. Driving everything from dinner parties and concert outings to political campaigns and protest movements, it has frequently been celebrated for its ability to convey information, mobilize groups and galvanize change. However, it has also been criticized for its questionable content management choices, its suspect data collection practices and, perhaps most notably, its role in feeding an ever-growing mental health crisis among children and adolescents—a charge Zuckerberg refutes. Elizabeth Burgess Dowdell, PhD, RN, FAAN, is a professor in Villanova University’s M. Louise Fitzpatrick College of Nursing and an expert on the health and safety risks posed by social media. From her perspective, Facebook and platforms like it have undoubtedly played a part in heightening levels of emotional distress and physical harm among youths. “Statistically, it’s well-established in the literature that mental health issues and concerning behaviors among children have escalated tremendously,” said Dr. Dowdell. “They’re becoming sadder, more depressed and lonelier, even though they’re very connected.” To Dr. Dowdell’s point, mental health disorders began rising precipitously among young people in the years following Facebook’s launch. Per the Centers for Disease Control and Prevention (CDC), the percentage of children aged 6 to 17 years “ever having been diagnosed with either anxiety or depression” increased from 5.4% in 2003 to 8% in 2007 and 8.4% in 2011-2012. And just last year, in the era of Instagram and TikTok, Mental Health America found that 11.5% of children in the United States were struggling with severe depression, with 16% of youths aged 12 to 17 years having experienced a major depressive episode in the past 12 months. A contributing factor, according to Dr. Dowdell, is the way social media construes reality. Flooded with images, posts and videos that show hyper-idealized, rose-colored representations of life, impressionable young users can be made to feel isolated, inept or dissatisfied with their appearance. “I think adults understand that a ‘perfect’ picture is often preceded by a dozen other photos,” she said. “Kids don’t always see it like that. They focus on what makes them happy and what makes them sad—and what makes them feel sad about themselves.” Tragically, throughout the social media age, this sadness has been tied to increasing rates of suicide, self-harm and risky behavior among youths. A 2023 CDC study found that the suicide rate for children aged 10 to 14 years tripled from 2007 to 2018 (from 0.9 deaths per 100,000 to 2.9), and in 2021-2022, the National Center for Missing and Exploited Children noted a 35% year-over-year increase in reports of suspected child sexual exploitation. Amid these frightening statistics, Dr. Dowdell emphasizes the importance of caring, compassionate adults’ involvement in young people’s lives. She notes these individuals’ presence can not only shield youths from potentially hazardous situations but give them the tools to cope with traumatic episodes and feelings of despair. “The critical factor that helps children become resilient is having a support system—having family members, parents or trusted adults with whom they can talk,” Dr. Dowdell shared. “They might go down the rabbit hole, but they have someone to pull them out, someone to help them.” For adults concerned about their loved ones’ social media use, Dr. Dowdell stresses that empathy and understanding are key. In turn, she advocates for an approach that reflects the supposed purpose of Facebook and platforms like it: active conversation. “It all comes back to communication,” she said. “Parents and guardians need to role-model responsible behaviors. They need to talk about these things: ‘What did you look at today?’ ‘What was good?’ ‘What was bad?’ ‘What did you think?’ ‘How did you feel about that?’ “It’s much like, when children are little, reading them books. When we read to children, we engage them… Why not read the social media feeds, look at the Facebook posts or go through Instagram? These forms of engagement, the conversations we have, let them know they can come and talk.”
Empowering Black and Latinx Boys in Their Postsecondary Journeys: The Role of School Communities
In a new study published in the American Educational Research Journal, Roderick L. Carey, assistant professor in the University of Delaware's College of Education and Human Development, offers a rich, ethnographic case study on how Black and Latinx boys imagine their postsecondary futures. With attention to the students’ first-person narratives about their school experiences and personal aspirations, Carey shows how their high school—a Mid-Atlantic college preparatory school in the United States—ultimately fails to understand and support their college, career and personal aspirations for life after graduation. “College is just one facet of a broader interconnected life that adolescents need support in imagining,” said Carey, who teaches and conducts research within CEHD’s Department of Human Development and Family Sciences. “Postsecondary future selves is a concept that folds together three pieces of that broader life—college, career and life condition, or ‘the 3Cs.’ By focusing on one, and ignoring the other two, educators miss the mark.” Carey is available to talk about this new study as well as the possible solutions to this issue. Her has been recently featured in Technical.ly and WHYY, an NPR affiliate. He can be contacted via his profile.
The U.S. House today passed a federal bill to ban TikTok and it now moves to the Senate. President Biden said he would sign a potential bill that bans the social media platform. Goizueta Business School Professor David Schweidel has done extensive research on the impact of social media. He says: The security and privacy issues around TikTok are only one part of the equation. User safety is another concern that all social media companies are now facing. He notes that the algorithms prioritize engagement, which could be showing people content that is harmful to them (mentally and/or physically). Background: TikTok is owned by ByteDance, a private Chinese company that claims all information gathered through the app is secure. Lawmakers do not agree and have plans to remove TikTok from the U.S. by September 30th unless ByteDance sells TikTok. The proposed bill would also put into place allowance for the executive branch to prohibit access to an app owned by a foreign adversary that could impact national security. Expert Source: David A. Schweidel, Professor of Marketing, Goizueta Business School at Emory University Bio - https://goizueta.emory.edu/faculty/profiles/david-schweidel To connect with David to arrange an interview - simply click his icon now.
The digits of pi are infinite. It’s an irrational number—one whose decimal never ends and never repeats. Over time, with brilliant minds and brilliant technology, humans have been able to calculate its digits further and further, now forming a 100-trillion decimal tail. In many ways, the infinitely long decimal expansion of pi is a metaphor for its limitless applicable value. With new ways of thinking, measuring and computing, the significance of pi has permeated throughout the study and use of mathematics and countless other disciplines. Pi is a mathematical constant by definition and also because of its ubiquity. “To offer an Augustinian-themed analogy, pi is to mathematics as Gregor Mendel’s peas are to biology,” said Katie Haymaker, PhD, associate professor of mathematics and statistics at Villanova University. “At first glance, Mendel’s experiments convey some basic understanding of the function of genetics. However, the way genes are expressed is incredibly complicated, and scientists continue to study genetics and gene therapies today. Similarly, mathematicians today study objects that are historically tied to the development of ideas inspired by explorations of pi. Pi is one gateway to a garden of mathematical possibilities.” Dr. Haymaker currently teaches a course called “Mathematics for Human Flourishing,” inspired by the Francis Su book of the same title. Her class discusses math in everyday life and how engaging in mathematical exploration can develop virtues like studying ethics or other humanities can and also expand quality of life. “I don’t have class this Pi Day, but usually I would share a little something about pi if I did,” she said. So, what exactly is pi? The easy answer is that it’s the ratio of the circumference (the length all the way round) to the diameter (the length across) for any circle. “If you measure across a circle with a piece of rope, how many pieces of the same rope would you need to measure around?” Dr. Haymaker explained. The never-ending answer starts with 3.14, hence the common celebration of Pi Day on March 14. This value has been studied for millennia: The ancient Egyptian Rhind Papyrus, dating to around 1650 BCE, offers a very close estimation for pi as 3.16049. Even the Bible, in 1 Kings 7:23, a circular vessel is described, and the ratio of circumference to diameter calculated to exactly three. “There are interesting explorations by biblical scholars about why this number is not exactly the value that we now know as pi, including that the brim around the vessel accounts for the discrepancy,” Dr. Haymaker said. Over time, novel methods for approximating pi were discovered, advancing humankind’s understanding of its value, and leading to various other paths of mathematical study. The famous Greek mathematician and inventor Archimedes, for instance, discovered a way to approximate pi’s value by use of a regular polygon (a closed geometric figure made of equal straight lines and angles). In those times, measuring a circle was not well defined, according to Dr. Haymaker. By placing the regular polygon inside the circle, the straight lines can be measured, those straight lines can be split to form a regular polygon with more measurable sides, and so forth. The more sides, the closer the measurement is to the true circumference of the circle. “That whole idea of approximating to the actual value is the main idea of calculus,” she said. “This notion by Archimedes predated that entire field.” Later, formulas were developed that surpassed Archimedes’ technique. A better approximation of pi was discovered around the year 450 by Chinese mathematician Tsu Ch’ung-chih, arriving at the easy-to-remember fraction 355/113. “This is one rational approximation to pi, and it’s also a fun Pi Day party trick because it’s the best approximation you can get with a fraction like this whose denominator is less than 10,000,” Dr. Haymaker said. These are just two examples of the many contributions made to advance the understanding of pi. Even the use of the Greek symbol to describe the ratio, which was popularized by 18th-century mathematician Leonhard Euler, was instrumental. Prior to that, there had been no agreed-upon symbol and the concept was often described using only words. In the thousands of years since the first recorded approximation of pi, the methods of its approximation—and pi itself—have been applied to multiple other fields of mathematical study such as trigonometry and calculus. For Dr. Haymaker, pi was important in the development of her own understanding of mathematics as well. “I have learned to expect the unexpected when it comes to pi,” she said. “It shows up in all sorts of places and it inspires us to dig deeper into why.” Today, pi can be calculated to 100-trillion decimal places (though only a dozen or so are needed for even the most accurate applications). On Pi Day 2023, 21-year-old Rajveer Meena memorized the first 70,000 digits, breaking a Guiness World Record in a mind-boggling 10-hour recitation. “I think that pi is fascinating to people because its digits behave in a random way and they go on forever,” Dr. Haymaker said. “If there is a string of numbers that is special to you—take 1842 for example—it exists somewhere in the digits of pi. In exploring pi, it feels like you are exploring the infinite, which naturally inspires mystical feelings about the number.” By the way, the string of numbers 1842 (the year Villanova was founded) appears at position 1738 counting from the first number after the decimal, according to the Pi-Search Page. So, whether it’s on March 14, July 22 (because the fraction 22/7 is a rational approximation of pi) or whenever you might celebrate, look down at that beautiful circular dessert you will cut into and think about “why pi(e)?” “Some people may scoff at Pi Day as being separate from ‘real’ mathematics,” Dr. Haymaker said. “But there is a joyfulness in celebrating this day that represents a deep connection that people have to mathematical discovery. After all, a person wrote the Rhind Papyrus, and it is people who program the computers that searched for the 100 trillionth digit of pi. This quest to understand is a deeply human endeavor. “To quote Francis Su, ‘the pursuit of math can, if grounded in human desires, build aspects of character and habits of mind that will allow you to live a more fully human life and experience the best of what life has to offer.’ So, if eating pie and other round foods on March 14 inspires someone to learn, ask questions, pursue answers and see themselves as an explorer of mathematics, then it is indeed a day to celebrate.”
What exactly is edge computing and how does it relate to self-driving cars? A University of Delaware expert has been diving deep into the subject through the university's Connected and Autonomous Research Laboratory (CAR Lab). Weisong Shi is a professor and chair of the Department of Computer and Information Sciences at UD, where he leads the CAR Lab. Edge computing is how scientists move computations closer to the user. Self-driving cars have to gather and process big batches of data to work, and in a short amount of time. The time spent sending data to a physically distant server and then back again may cause delay that could impact real-time decisions. Shi's research with edge computing is working to alleviate that issue without turning every car into a supercomputer that consumes a lot of computing power and energy. Shi and his team are building a world-class live research and education infrastructure on the STAR Campus at the University of Delaware. He can be reached by clicking his profile.
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
