Cleaner Futures (Next-Generation Sustainable Materials for Consumer Products).
Lead Research Organisation:
University of Liverpool
Department Name: Chemistry
Abstract
Unilever has a longstanding strategic partnership with the University of Liverpool. To date, the focus has been on cocreating shared scientific capability. Over £100M has been co-invested since 2006 to drive knowledge leadership, improved productivity, reduced time to market, and high-value IP portfolios. This new partnership will address how to achieve the UK Government's 2019 target of Net-Zero by 2050, through disruptive innovation in the current chemical supply chain. It is a fundamental scientific step-change over our current collaboration, motivated by a shared commitment to achieve Net-Zero through new, targeted, co-developed chemical science.
The majority of chemicals currently used in consumer products (such as shampoo & laundry liquids) are derived from virgin petrochemicals, many are not biodegradable. Unilever has a strategic target to replace its current formulation ingredients with non-petroleum sourced materials designed for environmental degradation. Currently, its suppliers cannot supply this type of material in sufficient quantity. This Prosperity Partnership will address this, through its ambitious vision to co-create the science base for a radically transformed sustainable consumer products materials platform in a Net-Zero world.
The project has four tightly integrated technical work-packages. They will deliver a versatile suite of catalyst materials for sustainable production of surfactants, monomers, and polymers from waste, new tools for measuring and predicting polymer bio-degradability, state-of-the-art predictive digital methods, and high-throughput lab techniques. A dedicated work-package will undertake a detailed consideration of the wider social, ecological and economic consequences of the science programme, and how the outputs of the chemistry research can be translated into a wider Innovation Ecosystem.
The project will deliver a wide range of outcomes and impacts including new scientific platforms for designing and inventing renewable and bio-degradable materials, and new routes to make these materials. This fundamental research will greatly benefit the UK and Global scientific communities in the development of Net-Zero aligned chemistries.
Our 5Ps for PROSPERITY framework will be used to deliver key outcomes.
PEOPLE: High calibre research and innovation staff, with the ability to create and deploy new knowledge, are the human capital we will need to deliver Net-Zero innovation. The level of ambition of the project and the translational research environment of the Materials Innovation Factory will provide a unique training and professional development opportunity for students, researchers, Unilever staff, and other company staff involved in the project and wider ecosystem.
PARTNERSHIPS: new knowledge-based partnerships will be used to orchestrate an Innovation Ecosystem (TRL 1-9) that can maximise value creation and exploitation from the project.
PATENTS: Numerous high-value inventions, with wide applicability, including outside Unilever's core interests, will be used to galvanise investors into backing these innovative ideas with expertise and capital. A range of investment routes will be explored to exploit high-value IP (e.g. Unilever patent filings, UoL in-house filing/commercialisation, partnerships with commercial IP development teams).
PLATFORMS: Digital platforms package and exploit scientific know-how, underpin partnerships, monetise and exploit clever ideas. We will create new digital platforms to exploit project insights. Fully engineered platforms based on new digital assets from this project will be the focus of further funding and investment.
PUBLICATIONS: Seminal academic papers in high quality peer-reviewed journals.
The project is aligned to Global, National, and Regional agendas including: UN Sustainable Development Goals, UK Industrial Strategy, UK Chemistry Council Strategy, EPSRC delivery plan, and Liverpool City Region Local Industrial Strategy.
The majority of chemicals currently used in consumer products (such as shampoo & laundry liquids) are derived from virgin petrochemicals, many are not biodegradable. Unilever has a strategic target to replace its current formulation ingredients with non-petroleum sourced materials designed for environmental degradation. Currently, its suppliers cannot supply this type of material in sufficient quantity. This Prosperity Partnership will address this, through its ambitious vision to co-create the science base for a radically transformed sustainable consumer products materials platform in a Net-Zero world.
The project has four tightly integrated technical work-packages. They will deliver a versatile suite of catalyst materials for sustainable production of surfactants, monomers, and polymers from waste, new tools for measuring and predicting polymer bio-degradability, state-of-the-art predictive digital methods, and high-throughput lab techniques. A dedicated work-package will undertake a detailed consideration of the wider social, ecological and economic consequences of the science programme, and how the outputs of the chemistry research can be translated into a wider Innovation Ecosystem.
The project will deliver a wide range of outcomes and impacts including new scientific platforms for designing and inventing renewable and bio-degradable materials, and new routes to make these materials. This fundamental research will greatly benefit the UK and Global scientific communities in the development of Net-Zero aligned chemistries.
Our 5Ps for PROSPERITY framework will be used to deliver key outcomes.
PEOPLE: High calibre research and innovation staff, with the ability to create and deploy new knowledge, are the human capital we will need to deliver Net-Zero innovation. The level of ambition of the project and the translational research environment of the Materials Innovation Factory will provide a unique training and professional development opportunity for students, researchers, Unilever staff, and other company staff involved in the project and wider ecosystem.
PARTNERSHIPS: new knowledge-based partnerships will be used to orchestrate an Innovation Ecosystem (TRL 1-9) that can maximise value creation and exploitation from the project.
PATENTS: Numerous high-value inventions, with wide applicability, including outside Unilever's core interests, will be used to galvanise investors into backing these innovative ideas with expertise and capital. A range of investment routes will be explored to exploit high-value IP (e.g. Unilever patent filings, UoL in-house filing/commercialisation, partnerships with commercial IP development teams).
PLATFORMS: Digital platforms package and exploit scientific know-how, underpin partnerships, monetise and exploit clever ideas. We will create new digital platforms to exploit project insights. Fully engineered platforms based on new digital assets from this project will be the focus of further funding and investment.
PUBLICATIONS: Seminal academic papers in high quality peer-reviewed journals.
The project is aligned to Global, National, and Regional agendas including: UN Sustainable Development Goals, UK Industrial Strategy, UK Chemistry Council Strategy, EPSRC delivery plan, and Liverpool City Region Local Industrial Strategy.
Publications
Diment WT
(2022)
Synergic Heterodinuclear Catalysts for the Ring-Opening Copolymerization (ROCOP) of Epoxides, Carbon Dioxide, and Anhydrides.
in Accounts of chemical research
Shellard EJK
(2024)
Al(III)/K(I) Heterodinuclear Polymerization Catalysts Showing Fast Rates and High Selectivity for Polyester Polyols.
in ACS catalysis
Description | PI participation with BEIS-hosted meeting on the research and innovation priorities for net zero |
Geographic Reach | National |
Policy Influence Type | Participation in a guidance/advisory committee |
Description | Plenary talk at World Congress on Oxidation Catalysis |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Postgraduate students |
Results and Impact | Gave plenary lecture at World Congress on Oxidation Catalysis on 6 September 2022 in Cardiff. Talk titled "Digitally-driven routes to new materials and catalysts". |
Year(s) Of Engagement Activity | 2022 |
URL | https://www.scimed.co.uk/seminars-training/9th-world-congress-on-oxidation-catalysis/ |
Description | Presentation at UK Plastics Treaty Leadership Dialogues |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Industry/Business |
Results and Impact | CoI (Charlotte Williams) gave a presentation on bio-based and degradable polymers and lead discussion at the UK Plastics Treaty Leadership Dialogues with DEFRA and 40 NGOs, academics and companies. |
Year(s) Of Engagement Activity | 2022 |
URL | https://globaltreatydialogues.org/ |
Description | Round table, Harnessing Materials Innovation to Reach Net Zero |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Policymakers/politicians |
Results and Impact | Together with the New Statesman, convened an online round table on 27th April, 2022 on the topic of Harnessing Materials Innovation to Reach Net Zero. The forum discussion was featured in a New Stateman article. On behalf of the PP project, MJR participated in the symposium with key stakeholders: Prof. Laura Harkness-Brennan (APVC Research & Impact for Science & Engineering, UoL), Bill Esterson MP (Shadow Minister for Business and Industry), Prof. Dame Lynn Gladden (Chair of EPSRC), Dr Jon Hague (VP Science and Technology, Unilever), Metro Mayor Steve Rotheram (Liverpool City Region) and Jon Saltmarsh (Deputy Director of Engineering and Research, Science and Innovation for Climate and Energy Directorate, BEIS). Key messages around the net zero problem requiring physical science input were clearly put to the policy and decision makers, emphasising the disruption in materials requirements and availability that will accompany net zero and the need for the UK to manage risk and seize the arising economic opportunity. |
Year(s) Of Engagement Activity | 2022 |
URL | https://www.newstatesman.com/spotlight/climate-energy-nature/2022/05/how-materials-innovation-can-he... |