Dr Andrew York
Johnson Matthey Research Fellow
|Qualifications/honours||BSc (1st Class Hons.), Applied Chemistry, Kingston Polytechnic, 1990
DPhil, Inorganic Chemistry Laboratory, Oxford, 1993
|Address|| Magnetic Resonance Research Centre
Department of Chemical Engineering and Biotechnology
c/o Cavendish Stores
JJ Thomson Avenue
|Research group||Magnetic Resonance, Terahertz, Catalysis|
|Research project title||Catalysis|
Andy graduated from Kingston Polytechnic, and went on to research methane activation chemistry for a DPhil with Professor Malcolm Green at the University of Oxford. He continued in the field of heterogeneous catalysis, first with a post-doctoral position in Strasbourg with Professor Marc Ledoux, where he studied novel metal carbide/oxycarbide catalysts for the alkane isomerisation reaction. Then a Science and Technology Association post-doctoral fellowship took him to Tsukuba, Japan, to work on selective hydrocarbon oxidation in electrochemical reactors. Following these posts, Andy returned to Malcolm Green's group in Oxford to research metal carbide catalysts, carbon fullerene and nanotube materials, C1 chemistry and hydrocarbon selective oxidation. During this second Oxford period he also took up a short BA Media fellowship to work at New Scientist magazine.
After almost 4 years in Oxford, he joined the Johnson Matthey Technology Centre (JMTC) in Sonning Common near Reading (2000), working in the Gas Phase Catalysis Department. At JMTC he developed reaction engineering computer models, based on kinetics measured for real-world catalysts. These catalyst models were then used in the design and understanding of vehicle exhaust aftertreatment systems, with an emphasis on diesel applications. During this period he has also been a visiting guest lecturer at the University of Reading and Imperial College.
Since October 2008 he has been seconded to the Department of Chemical Engineering and Biotechnology, for an initial period of 5 years, tasked with building a collaborative relationship between the department and Johnson Matthey. His research interests will particularly revolve around understanding catalyst synthesis and manufacture, catalyst adsorption and kinetics, transport processes in catalysis, and novel reactors for more efficient production of chemicals.
Main collaboratorsProf. Lynn Gladden
Dr. John Dennis
Dr. Mick Mantle
Dr. Andy Sederman
Key publicationsM. Ahmadinejad, M. Desai, T.C. Watling and A.P.E. York, Simulation of Automotive Emission Control Systems, Adv. Chem. Eng., 33 (2008) 47-101.
A.P.E. York, T.-C. Xiao, M.L.H. Green and J.B. Claridge, Methane Oxyforming for Synthesis Gas Production, Catal. Rev., 49 (2007) 511-560.
A.P.E. York, M. Ahmadinejad, T.C. Watling, A.P. Walker, J.P. Cox, J. Gast, P.G. Blakeman and R. Allansson, Modeling of the Catalyzed Continuously Regenerating Diesel Particulate Filter (CCR-DPF) System: Model Development and Passive Regeneration Studies, Society of Automotive Engineers, 2007-01-0043 (2007).
M. Ahmadinejad, T.C. Watling, A.P.E. York, A.P. Walker, H.-Y. Chen, H.S. Hess and J. P. Cox, Development and Application of a 1-Dimensional Model for a NOx Trap System, Society of Automotive Engineers, 2006-01-3445 (2006).
A.P.E. York, J.P. Cox, T.C. Watling, A.P. Walker, D. Bergeal, R. Allansson and M. Lavenius, Development and Validation of a One-dimensional Computational Model of the Continuously Regenerating Diesel Particulate Filter (CR-DPF) System, Society of Automotive Engineers, 2005-01-0954 (2005).
A.P.E. York, Inorganic Fullerenes, Onions and Tubes, J. Chem. Ed., 81(5) (2004) 673-676.