摘要:
Disclosed are organic-inorganic hybrid self-assembled multilayers that can be used as electrically insulating (or dielectric) materials. These multilayers generally include an inorganic primer layer and one or more bilayers deposited thereon. Each bilayer includes a chromophore or “π-polarizable” layer and an inorganic capping layer composed of zirconia. Because of the regularity of the bilayer structure and the aligned orientation of the chromophore resulting from the self-assembly process, the present multilayers have applications in electronic devices such as thin film transistors, as well as in nonlinear optics and nonvolatile memories.
摘要:
Disclosed are thin film transistor devices incorporating a crosslinked inorganic-organic hybrid blend material as the gate dielectric. The blend material, obtained by thermally curing a mixture of an inorganic oxide precursor sol and an organosilane crosslinker at relatively low temperatures, can afford a high gate capacitance, a low leakage current density, and a smooth surface, and can be used to enable satisfactory transistor device performance at low operating voltages.
摘要:
Disclosed are thin film transistor devices incorporating a crosslinked inorganic-organic hybrid blend material as the gate dielectric. The blend material, obtained by thermally curing a mixture of an inorganic oxide precursor sol and an organosilane crosslinker at relatively low temperatures, can afford a high gate capacitance, a low leakage current density, and a smooth surface, and can be used to enable satisfactory transistor device performance at low operating voltages.
摘要:
Disclosed are organic-inorganic hybrid self-assembled multilayers that can be used as electrically insulating (or dielectric) materials. These multilayers generally include an inorganic primer layer and one or more bilayers deposited thereon. Each bilayer includes a chromophore or “π-polarizable” layer and an inorganic capping layer composed of zirconia. Because of the regularity of the bilayer structure and the aligned orientation of the chromophore resulting from the self-assembly process, the present multilayers have applications in electronic devices such as thin film transistors, as well as in nonlinear optics and nonvolatile memories.