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Dr Jeremy Deverell

Contact Details
Tel: +61 8 8302 5145
Fax: +61 8 8302 3683
Email: jeremy.deverell@unisa.edu.au

Position
Computed Tomography Technologist: Scientific Services

Qualifications
BSc(Hons) PhD Tasmania

Background
Jeremy completed a Bachelor of Science (chemistry and mathematics) with Honours (chemistry), from the University of Tasmania in 2005. In 2006, he entered the graduate program in chemistry at the same university. His doctoral research was in the development of microreactors using porous polymer monolith for immobilization of palladium catalysts. Jeremy specialises in photolithographic fabrication of microfluidic devices as well as photo-initiated radical poylmerisation and grafting.

Publications
Bolton, K.F., A.J. Canty, J.A. Deverell, R.M. Guijt, E.F. Hilder, T. Rodemann, and J.A. Smith, Macroporous monolith supports for continuous flow capillary microreactors. Tetrahedron Letters, 47, 9321 (2006)
Canty, A.J., J.A. Deverell, A. Gomann, R.M. Guijt, T. Rodemann, and J.A. Smith, Microfluidic devices for flow-through supported palladium catalysis on porous organic monolith. Australian Journal of Chemistry, 61, 630 (2008)
Gomann, A., J.A. Deverell, K.F. Munting, R.C. Jones, T. Rodemann, A.J. Canty, J.A. Smith, and R.M. Guijt, Palladium-mediated organic synthesis using porous polymer monolith formed in situ as a continuous catalyst support structure for application in microfluidic devices. Tetrahedron, 65, 1450 (2009)
Jones, R.C., A.J. Canty, J.A. Deverell, M.G. Gardiner, R.M. Guijt, T. Rodemann, J.A. Smith, and V.A. Tolhurst, Supported palladium catalysis using a heteroleptic 2-methylthiomethylpyridine-N,S-donor motif for Mizoroki-Heck and Suzuki-Miyaura coupling, including continuous organic monolith in capillary microscale flow-through mode. Tetrahedron, 65, 7474 (2009)
J.A. Deverell, T. Rodemann, Canty, A.J., and R.M. Guijt, UV initiated formation of polymer monoliths in glass and polymer microreactors. Sensors and Actuators B: Chemical, In Press

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