Chemical and Biological Sensing with Organic Thin-film TransistorsCornell University, 2007 - 224 pages |
Contents
Sensing with pentacene organic fieldeffect transistors OFETs | 30 |
PSS organic electrochemical transistors | 60 |
Outlook | 90 |
Copyright | |
1 other sections not shown
Common terms and phrases
active layer adhesion layer analyte applications aqueous solution Atomic force microscope bipolarons buffer solution channel length charge carrier charge transport Chem chemical and biological conductivity conjugated current modulation decrease delamination demonstrated deposition detection device doping drain current drain electrodes electrical electrolyte enzyme fabricated field-effect transistors Figure G.G. Malliaras gate dielectric gate electrode gate voltage gluconic acid glucose oxidase glucose sensing humidity sensor I-V characteristics insulating integrated ISOFET laminated Lett microelectrochemical microfluidic gate molecules observed organic electrochemical transistor organic field-effect transistor organic semiconductor organic thin-film transistors organosilanes oxidation parylene PDMS PDMS microfluidic channel PEDOT PEDOT:PSS film PEDOT:PSS OECT PEDOT:PSS transistor pentacene film pentacene OFET phthalocyanine Phys polyaniline polycarbonate polymer polypyrrole polythiophene recognition elements redox response sample Schematic self-assembled monolayer sensitive sensors based shown in Fig shows SiO2 source and drain source-drain current substrate sulfonate surface thin-film transistors transistor characteristics transistors OFETs V₁ vapor µl/min