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Researcher Details
 
Name: Professor M North
Organisation: University of York
Department: Chemistry
Current EPSRC-Supported Research Topics:
Manufacturing Machine & Plant Materials Characterisation
Materials Synthesis & Growth

Current EPSRC Support
EP/X025489/1 Biobased And Biodegradable Polymers For A Sustainable Future(C)
Previous EPSRC Support
EP/P026435/1 CO2Chem Network: Establishing the UK as World Leaders in Carbon Dioxide Utilisation(C)
EP/M028747/1 Newton fund: Waste CO2 and biomass based chemical synthesis for the green economy(P)
EP/L017393/1 Sustainable polymers(C)
EP/K007947/1 CO2Chem Grand Challenge Network(C)
EP/H035702/1 Utilising CO2 in Synthesis and Transforming the Chemicals Industry(C)
EP/G004900/1 CATALYTIC PRODUCTION OF CYCLIC CARBONATES FROM WASTE CARBON DIOXIDE(P)
EP/E01819X/1 What is the mechanism of asymmetric cyanohydrin and amino nitrile synthesis?(P)
EP/E010202/1 C-Cycle(P)
EP/P501466/1 DTA - Kings College London(C)
EP/P500273/1 DTA - King's College London(C)
GR/P02967/01 DTA - King's College London(C)
GR/P03520/01 Ind. CASE - King's College London(C)
GR/P01816/01 Ind. CASE - King's College London(C)
GR/P01427/01 DTA - King's College London(C)
GR/R41767/01 Catalysts, asymmetric synthesis of cyanohydrins.(P)
GR/P00826/01 DTA - King's College London(C)
GR/M13022/02 TITANIUM(IV) SALEN COMPLEXES AS ASYMMETRIC CATALYSTS FOR THE SYNTHESIS OF CYANOHYDRINS AND RELATED SPECIES(P)
GR/N03372/01 CONSTRAINING PEPTIDES WITH NORBORNENE UNITS(P)
GR/M13022/01 TITANIUM(IV) SALEN COMPLEXES AS ASYMMETRIC CATALYSTS FOR THE SYNTHESIS OF CYANOHYDRINS AND RELATED SPECIES(P)
GR/L15364/01 HOMOCHIRAL LIVING POLYMERS WITH WELL-DEFINED BUT VARIABLE MOLECULAR ARCHITECTURE DERIVED FROM AMINO ACIDS(C)
GR/J67765/02 HOMOCHIRAL LIVING POLYMERS WITH WELL-DEFINED BUT VARIABLE MOLECULAR ARCHITECTURE DERIVED FROM AMINO ACIDS(C)
GR/J67765/01 HOMOCHIRAL LIVING POLYMERS WITH WELL-DEFINED BUT VARIABLE MOLECULAR ARCHITECTURE DERIVED FROM AMINO ACIDS(C)
GR/J67758/01 HOMOCHIRAL LIVING POLYMERS WITH WELL DEFINED BUT VARIABLE MOLECULAR ARCHITECTURE DERIVED FROM AMINO ACIDS(P)
GR/J28186/01 MECHANISTIC STUDIES ON THE ASYMMETRIC ADDITION OF HCN TO ALDEHYDES CATALYSED BY CYCLIC DIPEPTIDES(P)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator