Novel formulation design strategy
Lead Participant:
UNILEVER U.K. CENTRAL RESOURCES LIMITED
Abstract
Bio-inspired processes will have a major impact on the global society in 21st Century. The employment
of biocatalysts in industrial processes is expected to boost a sustainable production of chemicals,
biopolymers, materials and fuels from renewable resources.
The scope of this proposal is to translate academic research into industrial applications by exploiting
techniques and methods developed in nuclear magnetic resonance of proteins to allow a new level of
exploitation of biocatalysts in biotechnological processes and products.
Among the large spectrum of applications, we will translate and apply this innovative technology to the
accelerated design and creation of cold-cleaning formulations for reducing the enviromental and
economic costs of laundry.
of biocatalysts in industrial processes is expected to boost a sustainable production of chemicals,
biopolymers, materials and fuels from renewable resources.
The scope of this proposal is to translate academic research into industrial applications by exploiting
techniques and methods developed in nuclear magnetic resonance of proteins to allow a new level of
exploitation of biocatalysts in biotechnological processes and products.
Among the large spectrum of applications, we will translate and apply this innovative technology to the
accelerated design and creation of cold-cleaning formulations for reducing the enviromental and
economic costs of laundry.
Lead Participant | Project Cost | Grant Offer |
---|---|---|
UNILEVER U.K. CENTRAL RESOURCES LIMITED | £104,999 | £ 52,500 |
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Participant |
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IMPERIAL COLLEGE OF SCIENCE, TECHNOLOGY AND MEDICINE | ||
INNOVATE UK | ||
IMPERIAL COLLEGE LONDON |
People |
ORCID iD |