Ajay Kumar Mahato

TL;DR: High-performance operationally stable organic field-effect transistors were successfully fabricated on a PowerCoat HD 230 paper substrate with a TIPS-pentacene:polystyrene blend as the active layer and poly(4-vinylphenol)/HfO2 as the hybrid gate dielectric and exhibited remarkable stability under effects of gate bias stress and large number of repeated transfer scans with negligible performance spread.

TL;DR: Flexible organic field effect transistors (OFETs) with TIPS-pentacene: polystyrene (PS) blend are demonstrated to exhibit enhanced mobility and significantly improved electrical stability compared to neat TIPS pentacene on poly(4-vinylphenol) (PVP) dielectric (bi-layer OFETs), along with high mechanical stability.

TL;DR: In this paper, flexible organic field effect transistors with 6,13(bis-triisopropylsily-lethynyl) pentacene and polystyrene blend are demonstrated with high electro-mechanical stability.

TL;DR: In this article, high performance flexible organic field effect transistors with natural protein gelatin as a dielectric layer and solution-processed TIPS-pentacene as an active layer were fabricated on a flexible OFT.

TL;DR: A unified approach of directional solvent vapor annealing for crystal alignment in solution-processed organic semiconductors is proposed, which has the ability to provide a semiconducting layer with a well-aligned and interconnected assembly of long ribbons.