American Journal of Biomedical Engineering

American Journal of Biomedical Engineering provides a forum for the publication of the latest developments in biomedical engineering, and reflects the essential multidisciplinary nature of the subject. The journal publishes in-depth critical reviews, scientific papers and technical notes.

Henry Fatoyinbo

Editorial Board Member of American Journal of Biomedical Engineering

Lecturer, University of Surrey, UK

Research Areas

Dielectrophoresis/Electrophysiology, Biosensor, Tissue Engineering, Microfluidics, Lab on a Chip Systems

Education

2002-2005PhD Mechanical, Medical and Aerospace Engineering, University of Surrey, UK
2001-2002MScBiomedical Engineering, Merit for project
1997-2000B.Eng.School of Chemical & Biochemical Engineering, University College London, UK

Experience

2007-present Associate Lecturer in Biomedical Engineering, University of Surrey, UK
2007-2011Post-Doctoral Research Fellow (EPSRC), University of Surrey, UK
2005-2007Post-Doctoral Researcher, University of Surrey, UK
2001Process &Specialty Engineer, Fluor Corporation, UK

Publications: Conferences/Workshops/Symposiums/Journals/Books

[1]  H.O Fatoyinbo, M.P Hughes., Biosensors: Encyclopaedia of Nanotechnology (2012), ed. Bharat Bhushan, Springer Verlag GmBH, (In press).
[2]  Fatoyinbo, H.O., Kadri, N.A., Gould, D.H., Hoettges, K.F., Labeed, F.H., Real-time cell electrophysiology using a multi-channel dielectrophoretic-dot (DEP-Dot) microelectrode array. Electrophoresis. 2011, 32 (In press).
[3]  Fatoyinbo, H.O., Gould, D.H., Labeed, F.H., A bio-analytical system for rapid cellular electrophysiological assays. Conf Proc IEEE Eng Med Biol Soc. 2010, 2010: 6510-6513.
[4]  H.O. Fatoyinbo, K.F. Hoettges, M.P. Hughes, Rapid-on-chip determination of dielectric properties of biological cells using imaging techniques in a dielectrophoresis dot microsystem. Electrophoresis; Fast Track (2008) vol. 29, p3-10.
[5]  H.O. Fatoyinbo et al, Dielectrophoretic separation of Bacillus subtilis spores from environmental diesel particles. J Environ. Monit., (2007) vol. 9, p87-90.
[6]  H.O Fatoyinbo, K.F. Hoettges, S.M. Reddy, M.P. Hughes, An integrated dielectrophoretic quartz crystal microbalance (DEP-QCM) device for rapid biosensing applications. Biosens Bioelectron, (2007) vol. 23, p225-232.
[7]  WO/2007/020443 & EP1919627: Microelectrode device for Dielectrophoretic Characterisation of Particles, Hughes MP, Hoettges KF, and Fatoyinbo HO. Publication date: EPO 2007, WIPO 2008.
[8]  H.O. Fatoyinbo, D. Kamchis, R. Whattingham, S.L. Ogin, M.P. Hughes, A high throughput 3-D composite Dielectrophoretic separator, Biomed Eng, IEEE Trans, (2005) vol.52, p1347-1349.
[9]  M.P. Hughes, K.F. Hoettges, F.H. Labeed, H.O. Fatoyinbo, Y. Hubner, AC Electrokinetics; CRC Handbook of Engineering (2004), ed. RC Dorf, CRC Press (Boca Raton).
[10]  H.O. Fatoyinbo and M.P. Hughes, Finite Element Modelling of a 3 dimensional dielectrophoretic flow separator for optimal bioprocessing conditions, Eng Med Biol Soc, 26th International Conference, (2004) vol.1, p 2587-2590.