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England (E3) Programme and will synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive
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England (E3) Programme and will synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive
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supported by a £10M grant from the Research England Expanding Excellence in England (E3) Programme and will synergistically combine world-leading expertise in membrane biology and novel polymer chemistries
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, food microbiology and food biotechnology). Food waste valorisation Waste management Food based-polymers and bio based-polymers Sustainable food production Bio-based materials and products Energy
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will be to synthesise (using controlled techniques), functionalise and characterize polymers. The ultimate aim is to use these polymers to extract membrane protein transporters and embed them
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(E3) Programme and will synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive excellence
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synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive excellence in computational membrane science
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synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive excellence in computational membrane science
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synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive excellence in computational membrane science
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will be to express, extract, purify, and characterise membrane proteins using polymers to form protein lipid discs. The ultimate aim is to embed these into a bulk polymer membrane to form a bioinspired