HIgh-resolution, Printing-Based Patterning and PHOTOnic SINTERing for High-Speed, Low-Voltage Metal-Oxide Thin Film Transistors (HI-PHOTO-SINTER)
Acronym
HI-PHOTO-SINTER
Description of the granted funding
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.
Show moreStarting year
2022
End year
2026
Granted funding
Funder
Research Council of Finland
Funding instrument
Academy projects
Other information
Funding decision number
350780
Fields of science
Electronic, automation and communications engineering, electronics
Research fields
Sähkötekniikka ja elektroniikka
Identified topics
photonics, optics, laser