Physical model of human tissue skin-based electronic transistor Online publication date: Wed, 27-Aug-2014
by S.P. Kosta; Mukta Bhatele; S. Purnima Nema; Y.P. Kosta; Kalpesh N. Patel; Jaimin R. Patel; Harsh Mehta; Rajesh Patel; Bhavin Patel; Shakti Kosta; Archna Dubey; Prateek Gupta; Preeti Nair
International Journal of Biomechatronics and Biomedical Robotics (IJBBR), Vol. 2, No. 1, 2012
Abstract: For the first time exploratory feasibility study on the 'physical model of human tissue skin-based electronic transistor' (HTSBET) is presented. Effects of variables like: 1) distance (d) between device forming probes; 2) applied voltages; 3) probes pressure (p); 4) probes polarisation and shape, on the input/output characteristics as well as current gain factor β of the transistor are studied. Emerging applications of bio-material human tissue blood/skin-based electronic circuits towards cyborg implants, human-machine interface, human disease detection/healing, human health sensors and digital signal processing is visualised.
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