Nanotechnology is science, engineering, and technology conducted at the nanoscale, which is typically in the range 1 to 100 nanometres. From the latest advances in medicines and healthcare, to developments in cosmetics, paints, packaging and now 3D printing, the IOM’s SAFENANO team and lab has been de-risking nanotechnology using its unique combination of multi-disciplinary expertise, laboratory skills and state-of-the-art equipment on behalf of enterprises from small start-ups to multi-national corporations.
Dr Steve Hankin, SAFENANO's Director of Operations leads the team of scientists at the IOM: “Our mission has always been to provide the highest quality expertise to help nanotechnology emerge and develop on a safe and sustainable basis, maximising its commercial potential, through continuous development and improvement of our knowledge, equipment and practice.”
Over the ten years of SAFENANO, IOM scientists have carried out a series of reviews for the UK Government and its agencies including HSE, Defra, the Environment Agency and the Food Standards Agency, and more widely for the European Commission and the European Chemicals Agency. These reviews have been instrumental in how today’s approach to nanotechnology risks and regulation have developed.
In parallel with these activities, the growing SAFENANO team developed and launched a suite of lab- and field-based scientific services to support manufacturing and R&D across industry and academic sectors. These included guidance for safe working practices, workplace assessments, characterisation of materials, toxicology testing, risk assessment and training. Today the SAFENANO team delivers its unique range of multidisciplinary services globally to support the use and adoption of nanotechnology in a safe and sustainable way.
Current large-scale projects where IOM is de-risking nanotechnology innovations include one in which different approaches are being developed for the introduction of nanotechnology into production lines for packaging, automotive applications and photovoltaic materials. Another project is concerned with enhancing the mechanical properties of composites for increased erosion resistance and anti-icing characteristics of materials employed in extreme environments.
Demonstrating the wider possibilities of the technology, a team of scientists researching the potential of nanotechnology were recently awarded the Nobel Prize for Chemistry for their work into developing tiny machines, one-thousandth the width of a human hair.
