Silviu Botnaraş scite author profile

High‐performance solution‐based n‐type metal oxide thin‐film transistors (TFTs), fabricated directly on polyimide foil at a post‐annealing temperature of only 250 °C, are realized and reported. Saturation mobilities exceeding 2 cm²/(Vs) and on‐to‐off current ratios up to 108 are achieved. The usage of these oxide n‐type TFTs as the pixel drive and select transistors in future flexible active‐matrix organic light‐emitting diode (AMOLED) displays is proposed. With these oxide n‐type TFTs, fast and low‐voltage n‐type only flexible circuitry is demonstrated. Furthermore, a complete 8‐bit radio‐frequency identification transponder chip on foil has been fabricated and measured, to prove that these oxide n‐type TFTs have reached already a high level of yield and reliability. The integration of the same solution‐based oxide n‐type TFTs with organic p‐type TFTs into hybrid complementary circuitry on polyimide foil is demonstrated. A comparison between both the n‐type only and complementary elementary circuitry shows the high potential of this hybrid complementary technology for future line‐drive circuitry embedded at the borders of flexible AMOLED displays.

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Base-etch removal of a ligand shell in thin films of ZnO nanoparticles for electronic applications

Weber

Sharma

Botnaraş

et al. 2013

J. Mater. Chem. C

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Silviu Botnaraş

Low-temperature and scalable complementary thin-film technology based on solution-processed metal oxide n-TFTs and pentacene p-TFTs

Functionalized ZnO nanoparticles for thin-film transistors: support of ligand removal by non-thermal methods

Bidirectional communication in an HF hybrid organic/solution-processed metal-oxide RFID tag

Solution‐processed and low‐temperature metal oxide n‐channel thin‐film transistors and low‐voltage complementary circuitry on large‐area flexible polyimide foil

Base-etch removal of a ligand shell in thin films of ZnO nanoparticles for electronic applications

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