Low-Temperature Processed Complementary Inverter With Tin-Based Transparent Oxide Semiconductors
IEEE Transactions on Electron Devices(2023)
摘要
Transparent oxide semiconductors are promising materials due to their various benefits, such as high mobility and cost-efficient production. However, oxide semiconductors fabricated using the sputtering method require an additional postannealing process at a high temperature, which hinders their fabrication on plastic substrates and application to flexible devices. In addition, one of the critical drawbacks of oxide semiconductors is the shortage of p-type materials. Tin monoxide (SnO), a p-type oxide semiconductor, has the advantages of high mobility and low-temperature production. To address the aforementioned limitations, this study investigates the simultaneous low-temperature process on tin-based oxide semiconductors; p-type SnOx and n-type amorphous indium gallium tin oxide (In:Ga:Sn = 7:1:2). By integrating two optimized thin-film transistors (TFTs) under postann-ealing temperature of 180 °C, we fabricated a tin-based oxide semiconductor complementary inverter, with a high voltage gain (98.0); a noise margin high (
${\text {NM}_{H}}$
) and noise margin low (
${\text {NM}_{L}}$
) of 13.9 (46.3% of
${V} _{\text {DD}}$
) and 13.3 V (44.3% of
${V} _{\text {DD}}$
) at a
${V} _{\text {DD}}$
of 30 V, respectively, were also recorded. For further investigation, we fabricated a comple- mentary inverter on a plastic substrate. The fabricated device exhibited remarkable bias stress stability with excellent electrical characteristics:
${\text {NM}_{H}}$
of 3.9 V (39.0% of
${V} _{\text {DD}}$
),
${\text {NM}_{L}}$
of 4.5 V (45.0% of
${V} _{\text {DD}}$
), and a high voltage gain of 114.5 at a
${V} _{\text {DD}}$
of 10 V, thus demonstrating admirable application to flexible devices.
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关键词
Complementary inverter,indium gallium tin oxide,low-temperature processing,thin-film-transistor,tin monoxide (SnO)
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