Journal article

Simple Design of an Enzyme-Inspired Supported Catalyst Based on a Catalytic Triad

Mitchell D Nothling, Aravindhan Ganesan, Karmen Condic-Jurkic, Eric Pressly, Ashley Davalos, Michael R Gotrik, Zeyun Xiao, Ezat Khoshdel, Craig J Hawker, Megan L O'Mara, Michelle L Coote, Luke A Connal

Chem | CELL PRESS | Published : 2017

University of Melbourne Researchers

Grants

Awarded by US Army International Technology Center Pacific


Awarded by MRSEC Program of the National Science Foundation


Funding Acknowledgements

Computational assistance from Benjamin Noble is acknowledged and appreciated. Funding from the US Army International Technology Center Pacific (ITC-PAC FA5209-14-C-0017 to L.A.C.), the Defense Science Institute (L.A.C.), a Veski Innovation Fellowship (L.A.C.), and the MRSEC Program of the National Science Foundation (award DMR-1121053 to C.J.H.) is gratefully acknowledged. M.D.N. acknowledges a John Stocker Postgraduate Fellowship, an Australian Nanotechnology Network Travel Fellowship, and an Australian Postgraduate Award. M.L.C. and M.L.O. acknowledge generous allocations of supercomputing time on the National Facility of the Australian National Computational Infrastructure and an Australian Research Council Future Fellowship. A.G. acknowledges an Endeavour Research Fellowship. Unilever and UCSB have patents covering the catalysts designed herein.