An organic field-effect transistor (T) is described, which comprises: a pair of source and drain electrode (S, D) which are formed on an electrically insulating layer (INS) and which are adapted to operate as the source and the collector of a flow of electric charge-carriers in which the majority carriers are free holes, and a layer of organic conductive material (F) which is disposed between the electrodes (S, D) for the formation of a conduction region through which the flow of charge carriers passes and the resistance of which is modulated by the application of a control voltage to a gate electrode (G) insulated from the conduction region, characterized in that the layer of organic conductive material (F) is a layer of biomolecular conductive material including a film of polypeptides or oligopeptides (P) .; The method for the manufacture of a transistor of this type comprises the formation of a film (F) of polypeptides or oligopeptides (P) on the electrically insulating layer (INS) in contact with the source and drain- electrodes (S, D) by immobilization of the polypeptides/oligopeptides (P) on the layer (INS) by deposition of a buffer solution of polypeptides/oligopeptides (P) , subsequent incubation for a predetermined period of time and at a predetermined temperature, removal of the buffer solution, and drying by exposure to a stream of gas.

Transistore biomolecolare ad effetto di campo comprendente un film di polipeptidi, e procedimento per la sua realizzazione. (A BIOMOLECULAR FIELD EFFECT TRANSISTOR COMPRISING A POLYPEPTIDE FILM, AND A METHOD FOR ITS MANUFACTURING)

POMPA, Pier Paolo;DEL MERCATO, LORETTA LAUREANA;CHIURI, ROCCO;MARUCCIO, Giuseppe;CINGOLANI, Roberto;RINALDI, Rosaria
2007-01-01

Abstract

An organic field-effect transistor (T) is described, which comprises: a pair of source and drain electrode (S, D) which are formed on an electrically insulating layer (INS) and which are adapted to operate as the source and the collector of a flow of electric charge-carriers in which the majority carriers are free holes, and a layer of organic conductive material (F) which is disposed between the electrodes (S, D) for the formation of a conduction region through which the flow of charge carriers passes and the resistance of which is modulated by the application of a control voltage to a gate electrode (G) insulated from the conduction region, characterized in that the layer of organic conductive material (F) is a layer of biomolecular conductive material including a film of polypeptides or oligopeptides (P) .; The method for the manufacture of a transistor of this type comprises the formation of a film (F) of polypeptides or oligopeptides (P) on the electrically insulating layer (INS) in contact with the source and drain- electrodes (S, D) by immobilization of the polypeptides/oligopeptides (P) on the layer (INS) by deposition of a buffer solution of polypeptides/oligopeptides (P) , subsequent incubation for a predetermined period of time and at a predetermined temperature, removal of the buffer solution, and drying by exposure to a stream of gas.
2007
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11587/121362
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