Low-voltage organic field-effect transistors and inverters enabled by ultrathin cross-linked polymers as gate dielectrics

The quest for high-performance organic thin-film transistor (OTFT) gate dielectrics is of intense current interest. Beyond having excellent insulating properties, such materials must meet other stringent requirements for optimum OTFT function: efficient low-temperature solution fabrication, mechanical flexibility, and compatibility with diverse gate materials and organic semiconductors. The OTFTs should function at low biases to minimize power consumption, hence the dielectric must exhibit large gate capacitance. We report the realization of new spin-coatable, ultrathin (< 20 nm) cross-linked polymer blends exhibiting excellent insulating properties (leakage current densities similar to 10(-8) Acm(-2)), large capacitances (up to similar to 300 nF cm(-2)), and enabling low-voltage OTFT functions. These dielectrics exhibit good uniformity over areas similar to 150 cm(2), are insoluble in common solvents, can be patterned using standard microelectronic etching methodologies, and adhere to/are compatible with n(+)-Si, ITO, and Al gates, and with a wide range of p- and n-type semiconductors. Using these dielectrics, complementary invertors have been fabricated which function at 2 V.