Catalysis is a core area of science that lies at the heart of the chemicals industry - an immensely successful and important part of the overall UK economy, where in recent years the UK output has totalled over £50B annually and is ranked 7th in the world. This position is being maintained in the face of immense competition worldwide. For the UK to sustain its leading position it is essential that innovation in research is maintained, to achieve which the UK Catalysis Hub was established in 2013; and has succeeded over the last four years in bringing together over 40 university groups for innovative and collaborative research programmes in this key area of contemporary science. The success of the Hub can be attributed to its inclusive and open ethos which has resulted in many groups joining its network since its foundation in 2013; to its strong emphasis on collaboration; and to its physical hub on the Harwell campus in close proximity to the Diamond synchrotron, ISIS neutron source and Central Laser Facility, whose successful exploitation for catalytic science has been a major feature of the recent science of the Hub. The next phase of the Catalysis Hub will build on this success and while retaining the key features and structure of the current hub will extend its programmes both nationally and internationally. The core activities to which the present proposal relates include our coordinating activities, comprising our influential and well attended conference, workshop and training programmes, our growing outreach and dissemination work as well as the core management functions. The core catalysis laboratory facilities within the research complex will also be maintained and developed and two key generic scientific and technical developments will be undertaken concerning first sample environment and high throughput capabilities especially relating to facilities experimentation; and secondly to data management and analysis. The core programme will coordinate the scientific themes of the Hub, which in the initial stages of the next phase will comprise: - Optimising, predicting and designing new catalysts - Water - energy nexus - Catalysis for the Circular Economy and Sustainable Manufacturing - Biocatalysis and biotransformations The Hub structure is intrinsically multidisciplinary including extensive input from engineering as well as science disciplines and with strong interaction and cross-fertilisation between the different themes. The thematic structure will allow the Hub to cover the major areas of current catalytic science

The COVID-19 pandemic has exacerbated the problem of plastics in the environment, impacting on waste management across the UK, EU and globally. We have seen increased demand for single use plastics for public health purposes, disruptions to the usual distribution pathways and variations in reuse, recycle and retention which are all vital to developing a circular economy. As countries begin to ease lockdown restrictions it is likely that citizens will face greater pressures in managing their waste with potentially more home based working, less travel and socialising and increased single use plastic packaging (e.g. medical equipment, customer avoidance of 'loose' retail products). An explosion of interest in the ongoing problem of plastic waste has seen a diverse range of solutions being proposed. Recently we completed the PRISM project (2015-18) with a number of industry leaders that has shown a real and sustainable proof of concept that promises to be a significant part of the solution to this problem. We will address the automatic sorting of waste plastic containers used in food and non-food grade applications as is partially done at waste recycling plants. Current automated near infra-red sorting techniques are unable to identify food grade from non-food grade packaging which consigns high value polymer resins into low grade; non food grade uses or worse still, landfill and incineration. We will enable a low cost labelling system suitable for commercialisation, to make this sorting a reality; support the long term viability for closed loop sorting of these materials (PP, PE, PET, e.g. plastic milk bottles, drinks containers to household detergent bottles). Previously our consortium demonstrated a labelling system that can be used for high speed sorting of various crushed plastic bottles at high belt speeds with high purity and high yield which has received a great deal of interest from global brands. To commercialise this proof of concept it is desirable to optimise the luminescent materials that will be taken forwards so we will develop a sustainable low cost luminescent marker system using low toxicity and environmentally safe materials, thus lowering any commercial barrier to enter the market. Once this technology is proven then we will be in a strong position to seek wide implementation of our technology and run full scale field trials with major brand owners facilitated through our NextlooPP partner. This transformative project will have the effect to reduce inappropriate plastics disposal and increase recycling rates by increasing the monetary value of the recycled material. This will address the Plastics Pacts objective of 30% recycled content by finalising the underpinning luminescent labelling technology to be implemented. Implementation of this technology into the NextlooPP process will facilitate the availability of rPP granules for food, cosmetics and lower grade applications thus reducing the demand for virgin polymer. Tackling the systemic problem of plastic waste effectively cannot be achieved through purely technical means and our research offers fresh insights into people's perspectives on recycling and how consumers (UK, Spain, Germany) engage with surface markers on plastic packaging in their households, a neglected but important site for managing waste. This project thus moves beyond the technical infrastructure of waste management and design of products to address people's perceptions and behaviour with plastic packaging in their every day life and how their perceptions and behaviour might have changed in light of COVID-19. This ambitious project will thus help position the UK at the forefront of innovation in sorting hard to recycle plastics and offers fresh insights by integrating technical, business, policy and consumer focused elements to ensure that we are in alignment with stake holders all across the plastic packaging supply chain.