Skip to main content

March 30, 2012

Speaker: Dr. Farhana S. Saleh, Postdoctoral Researcher, Faculty of Science, University of Ontario Institute of Technology

Title: Fabrication of Novel Carbon Composite Electrodes for Biosensors and Biofuel Cells

Abstract: Electrochemical reactors and biosensors with enzymes have important applications of electrochemical technology in bioprocess engineering. Much effort has been exerted in the search for novel materials to design electrochemical biosensors and biofuel cells in developing faster, environmentally friendly, effective and more economical portable power sources for communication devices, sensors and medical implants.

The first part of the presentation discusses the construction of a new kind of highly sensitive amperometric glucose biosensor based on dehydrogenase enzyme immobilized nanocomposites modified carbon electrodes.

The second part focuses on the performance of the fabricated biosensor in analyzing glucose without interferences from the usual interferes present in the physiological system. Moreover, it explains the effective employment of these nanocomposites as bioanodes in glucose/O2 biofuel cell to provide improved film stability with a reasonably high power production.

Biography: Dr. Farhana S. Saleh is currently a PDF under Dr. Brad Easton’s supervision in the Faculty of Science, UOIT. She received both her B.Sc. and M.Sc. (2000 and 2002) in Chemistry from the University of Dhaka, Bangladesh and obtained her Master of Philosophy (M.Phil.) (2006) in Chemistry from the Bangladesh University of Engineering and Technology (BUET), Dhaka, Bangladesh where she has been a Lecturer since 2003. In 2007 she entered the doctoral program and received her doctorate in Electronic Chemistry from the Tokyo Institute of Technology (TIT), Japan in 2010. She worked briefly as a Visiting Researcher at the Tokyo Institute of Technology (TIT), Japan in 2011 before moved to UOIT. Her doctoral research areas include (i) Modification of carbon substrates with functional materials, polymers and carbon nanotubes for electrochemical sensing of biological materials and coenzyme, (ii) Immobilization of dehydrogenase enzymes for glucose and alcohol biosensors and (iii) Fabrication of enzymebased bioanodes and biocathodes for biofuel cell applications. She gets involved in a new research project that focuses on the development of materials for fuel cell based breath alcohol sensors.

University of Ontario Institute of Technology logo