Title :
Amorphous Silicon Thin-Film Transistors Gated Through an Electrolyte Solution
Author :
Gonçalves, Dina ; Prazeres, Duarte M F ; Chu, Virginia ; Conde, João Pedro
Author_Institution :
INESC Microsistemas e Nanotecnologias, IN-Inst. of Nanosci. & Nanotechnol., Lisbon
Abstract :
Amorphous silicon thin-film transistors were fabricated on glass substrates in a top-gate configuration in which the metallic gate was replaced by an electrolytic solution with an immersed gate bias electrode. A silicon nitride passivation layer was used to avoid leakage and electrochemical reactions. Transfer and output curves showed transistor behavior. The threshold voltage of ion-sensitive thin-film transistors is controlled by the distribution of charges in solution and molecular dipoles within the ~1-nm-thick Debye layer at the dielectric-electrolyte interface. The device surface facing the electrolyte was chemically functionalized with a single monolayer of organic molecules, and a gate voltage shift of the order of 100 mV was measured in phosphate buffer upon surface modification.
Keywords :
amorphous semiconductors; electrochemical electrodes; passivation; phosphorus; semiconductor thin films; silicon; silicon compounds; solid electrolytes; thin film transistors; Debye layer; Si-SiN-P; SiO2; amorphous silicon thin-film transistors; device surface; dielectric-electrolyte interface; electrochemical reactions; electrolyte solution; glass substrates; immersed gate bias electrode; ion sensitivity; leakage reactions; metallic gate; molecular dipoles; monolayer; organic molecules; phosphate buffer; silicon nitride passivation layer; top-gate configuration; Amorphous silicon; Dielectrics; Electrodes; Glass; Organic chemicals; Passivation; Substrates; Thin film transistors; Threshold voltage; Voltage control; Amorphous materials; sensitivity; silicon; surface treatment; thin-film transistors (TFTs);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2008.2001406
