%0 conference paper
%@ 
%A Alam, Shawon,Wang, Xu,Saghafi, Mahsa Kalantari,Marques, Gabriel Cadilha,Neffe, Axel Thomas,Toma, Francesca Maria,Aghassi-Hagmann, Jasmin
%D 2024
%J 6th IEEE International Flexible Electronics Technology Conference, IFETC 2024
%N 
%P  
%R doi:10.1109/ifetc61155.2024.10771888
%T Electrolyte-Gated Indium Oxide Based Transistor on PET Substrate Enabled by Hybrid Process
%U https://doi.org/10.1109/ifetc61155.2024.10771888
 
%X Printed electronics have demonstrated compatibility with flexible or non-conformal surfaces. Capillary-printed In2O3 nanoparticle-based transistors have great potential for flexible electronics since these devices exhibit highcarrier densities and mobility values. Another interesting advancement is the use of an electrolyte as a gate-insulator, which allows to reduce the voltage requirements of transistors down to 1 V. Herein, we present a methodology for electrolytegated transistors (EGTs) on polyethylene terephthalate (PET) substrates by incorporating inkjet-printing, capillary-based deposition, and laser ablation processes. These hybrid-printed EGTs show an Ion/Ioff ratio of up to 105, which is comparable to their counterparts on rigid substrates, creates routes for integrated printed electronics on flexible substrates.