HIgh-resolution, Printing-Based Patterning and PHOTOnic SINTERing for High-Speed, Low-Voltage Metal-Oxide Thin Film Transistors (HI-PHOTO-SINTER)

Akronym

HI-PHOTO-SINTER

Bidragets beskrivning

TAU and VTT's consortium will advanced low-power, high-speed flexible electronics. In WP1, TAU will explore novel material processing of high-? dielectrics and high mobility metal-oxide channel semiconductors atop soft substrates, while in WP2, VTT will advance reverse offset printing to enable reduced gate lengths with minimal gate overlap. Together, in WP3, they will realize a print-defined high-frequency amplifier. Benefits: 1) Low-cost, ultra-low power autonomous soft electronic wearable sensor systems; and 2) Advanced high-k dielectrics and metal-oxide semiconductors compatible with a limited processing thermal budget. One full-time postdoctoral researcher will be directly supported at TAU and two staff scientists at VTT, along with international scientific visitations.

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Startår

2022

Slutår

2026

Beviljade finansiering

Paul Raymond Berger

Tammerfors universitet

465 591 €

Rollen i Finlands Akademis konsortium

Övriga parter i konsortiet

Partner

Teknologiska forskningscentralen VTT Ab (350948)

458 771 €

Finansiär

Finlands Akademi

Typ av finansiering

Akademiprojekt

Utlysning

Academy Project Funding 2021

Övriga uppgifter

Finansieringsbeslutets nummer

350780

Vetenskapsområden

El-, automations- och telekommunikationsteknik, elektronik

Forskningsområden

Sähkötekniikka ja elektroniikka

Identifierade teman

photonics, optics, laser