Analogy of Photogating to Voltage-Gating in Zinc-Tin Oxide Thin-Film Transistor: Efficiency and Current Saturation Mechanism
IEEE Transactions on Electron Devices(2023)
摘要
In contrast to the conventional voltage-gated channels of thin-film transistors (TFTs), the photo-induced gating effect provides a promising approach to control the carrier concentration in the channels and benefits the advanced application in a remote operation mode. In this work, the zinc-tin oxide TFT (ZTO TFT) is revealed the feasibility of being photo-gated at
${V}_{\text {G}} =0$
V to obtain a series of output (
${I}_{\text {D}}$
–
${V}_{\text {D}}{)}$
characteristics. The current saturation in
${I}_{\text {D}}$
–
${V}_{\text {D}}$
curves of the photo-gated ZTO TFT confirms the photo-induced pinch-off region in the ZTO channel, suggesting the presence of positive pseudogate voltage at the channel under lighting. The photo-gated output characteristic at a given
${V}_{\text {D}}$
is converted to the log
${I}_{\text {D}}$
verse optical power density (
$\rho {)}$
curve, showing a rapid switching of
${I}_{\text {D}}$
by 405-nm light illumination with the reciprocal log (
${I}_{\text {D}}{)}$
–
$\rho $
slope of 0.04 (mW/cm
$^{{2}}{)}$
/decade. Parallel output characteristics triggered electrically with various gate voltages are also performed to obtain an equivalent drain current. The correlation of
${V}_{\text {G}}$
versus
$\rho $
for equivalent drain current reveals that photogating efficiency is 7.93 V/(mW/cm
$^{{2}}{)}$
. The photogating mechanism and efficiency are discussed based on the photoionization of the neutral oxygen vacancies to positively charged oxygen vacancies, which are responsible for photo-induced gate voltage (VG,ph).
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关键词
Oxide semiconductor,photogating effect,photogating efficiency,pinch-off region,thin-film transistor (TFT)
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