Title :
Membrane proteins embedded in supported lipid bilayers employed in field effect electronic devices
Author :
Angione, M.D. ; Mallardi, A. ; Romanazzi, G. ; Suranna, G.P. ; Mastrorilli, P. ; Cafagna, D. ; Giglio, E. De ; Palazzo, G. ; Torsi, L.
Author_Institution :
Dipt. di Chimica, Univ. degli Studi di Bari, Bari, Italy
Abstract :
A novel bottom-gate top-contact OTFT architecture has been fabricated. In this device, a lipid bilayer structure embedding a photosynthetic membrane protein extracted from Rhodobacter Sphaeroides has been deposited onto the organic semiconductor film (alpha,omega-dihexylsexythiophene) prior to the evaporation of source and drain gold contacts. The figures of merit of this device were extracted and compared to those obtained for the same OTFT devoid of the biological film. Only slightly lower performances in terms of field-effect mobility (mu) were observed for the lipid bilayer OTFT that exhibits mu = 0.007 cm2/Vs. This result constitutes a preliminary important starting point towards the development of novel highly sensitive and selective herbicides sensors.
Keywords :
biomembranes; biosensors; field effect devices; lipid bilayers; microorganisms; molecular biophysics; organic semiconductors; proteins; Rhodobacter Sphaeroides; alpha,omega-dihexylsexythiophene; bottom-gate top-contact OTFT; field effect electronic devices; field-effect mobility; lipid bilayers; membrane proteins; organic semiconductor film; photosynthesis; Biomembranes; Biosensors; Lipidomics; Microorganisms; Organic semiconductors; Organic thin film transistors; Proteins; Semiconductor films; Sensor arrays; Thin film transistors;
Conference_Titel :
Advances in sensors and Interfaces, 2009. IWASI 2009. 3rd International Workshop on
Conference_Location :
Trani
Print_ISBN :
978-1-4244-4708-4
Electronic_ISBN :
978-1-4244-4709-1
DOI :
10.1109/IWASI.2009.5184799
