Australian Institute for Bioengineering and Nanotechnology
Affiliate Associate Professor of Sc
School of Chemistry and Molecular Biosciences
Faculty of Science
Availability:
Available for supervision
Present Position
I am an ARC Future Fellow at the Centre for Advanced Imaging and associated with the University of Oxford as a Senior Visiting Research Fellow.
Previous Positions
August 2007 to March 2013: Scientific Coordinator and Applications manager of the Centre of Advanced Electron Spin Resonance (CAESR) at the Oxford University, UK.
2002-July 2007: Project leader (“Ober-assistent”) in the Physical Chemistry Department at the Swiss Federal Institute of Technology (ETH), Zürich. I was a project leader in the electron paramagnetic resonance group of Prof. Arthur Schweiger.
1999-2002: Postdoctoral position at ETH, Zurich. In the group of Prof. Arthur Schweiger I used CW and pulse EPR as a tool to investigate the geometric and electronic properties of transition metal complexes.
1996-1999: Doctor of Philosophy from the Chemistry Department of the University of Newcastle, Australia, Advanced Coal Characterization by Nuclear Magnetic Resonance. The project was funded by the Collaborative Research Centre for Black Coal Utilization and I was supervised by the University of Newcastle (Prof. Marcel Maeder), BHP Research Melbourne (Dr. Brian Smith) and Callcott Coal Consulting (Dr. Tom Callcott).
1995: Researcher at BHP Central Research Laboratories, Newcastle, Australia. I developed experimental techniques to measure the conductivity and the permeability of coal as it pertains to coke ovens.
1992-1995: Researcher at Oakbridge Research Center, Newcastle, Australia. I worked on high temperature Nuclear Magnetic Resonance (NMR) for coal characterization (for my Bachelor of Science Honors thesis). This was a collaboration between the CSIRO Coal and Energy Division (North Ryde, Sydney), Oakbridge Research Centre and the University of Newcastle.
Keywords
structural biology · protein interactions · metalloenzymes · metal complexes · electron transfer · Iron sulphur clusters · pulse EPR · CW EPR · DEER · PELDOR ·HYSCORE · ENDOR · ESEEM · density functional theory · molecular dynamics
Educated at the University of Copenhagen, Denmark, and the Australian National University, Canberra. Career at the Université de Lausanne, Switzerland, and the Universität Marburg, Germany. Professor and Chair of Organic Chemistry and Head of the Organic Chemistry Section, The University of Queensland from 1985. Emeritus professor from 2008. Chair of the National Committee for Chemistry of the Australian Academy of Science 2009-2014. Editor-in-Chief, Australian Journal of Chemistry 2008-15. Editor, Journal of Analytical and Applied Pyrolysis (Elsevier, IF 3.65) 2016-. Visiting Professor Université de Pau, France, 2011-19; Visiting Professor University of Kuwait 2014-18; Visiting Professor / Special Appointed Professor Hiroshima University 2014-18. Fellow of the Australian Academy of Science. Centenary Medal of the Australian Commonwealth 2003 for research in organic and physical chemistry. David Craig Medal of the Academy of Science 2014 for research in chemistry. JSPS Fellowship (Japan) 2014. Honorary doctorate, University of Pau, France, 2014. A.J. Birch Medal of the Royal Australian Chemical Institute (RACI) for ecellence in research in organic chemistry, 2014. Leighton Medal of the RACI 2018.
Research on Unusual Molecules and Reactive Intermediates: Synthesis and Reaction Mechanism. Heterocyclic chemistry. Pyrolysis reactions. Photochemistry
Research in the Wentrup group is concerned with the discovery of novel types of molecules with new and unusual bonding patterns. Such molecules are mostly highly reactive, and special methods are required both for their generation and for their detection. The group has developed these methods over many years and acquired world-class equipment for these purposes, including flash vacuum thermolysis apparatus, cryostats for matrix isolation of reaction products at cryogenic temperatures (down to 7 K), matrix and solution photochemistry equipment, infrared, UV and mass spectrometers, as well as modern computational facilities.
This research has resulted in the synthesis and characterization of many novel compounds, including extended cumulenes of the types RN=C=C=C=X, which themselves are used in the synthesis of many novel types of molecules, some of them of potential pharmaceutical interest (quinolone antibiotics; diazepines).
The research group has a world reputation in the field of carbene and nitrene chemistry, involving reactive intermediates with sextet carbon or nitrogen. These species are also very useful in synthesis, for example in the preparation of diazepines and diazepinones, a family of pharmaceutically interesting compounds. Numerous mechanistic studies and synthetic applications of ketenes have been carried out in our group.
Active collaborations are ongoing with scientists in Australia (UQ and CSIRO), China (Suzhou), France (Pau), Germany (Oldenburg), Japan (Hiroshima), Spain (Donostia - San Sebastian), and Portugal (Coimbra).
