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Fine-Tuned V th for Logic Reconfigurability in Dual-Gate Zinc Oxynitride TransistorsFine-Tuned Vth for Logic Reconfigurability in Dual-Gate Zinc Oxynitride Transistors

Other Titles
Fine-Tuned Vth for Logic Reconfigurability in Dual-Gate Zinc Oxynitride Transistors
Authors
Shin, HeebeenHan, YoungminKim, MinseoPark, Jae YeonShin, WonjunKim, Young-JoonLee, Han-KooKim, Chang-HyunYoo, Hocheon
Issue Date
Dec-2025
Publisher
AMER CHEMICAL SOC
Keywords
dual-gate transistor; metal oxide; zinc oxynitride; finite-element simulation; logic gate circuit
Citation
ACS APPLIED ELECTRONIC MATERIALS, v.7, no.23, pp 10805 - 10814
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
ACS APPLIED ELECTRONIC MATERIALS
Volume
7
Number
23
Start Page
10805
End Page
10814
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210322
DOI
10.1021/acsaelm.5c02047
ISSN
2637-6113
2637-6113
Abstract
Dual-gate transistors enable tunable electrical behavior by introducing a second gate electrode, offering enhanced control over channel formation and threshold voltage (Vth). Here, we report a dual-gate-controlled ZnON thin-film transistor (DGC-TFT) capable of finely modulating Vth (ΔV = 0.34 to 0.54 V) through independent top and bottom gate inputs. By characterizing the transfer and output curves under various bias combinations, we reveal systematic Vth shifts and dual-channel switching behavior arising from asymmetric gate dielectrics, organic parylene (top) and SiO2 (bottom). Finite-element TCAD simulations provide insights into the potential profiles, carrier distributions, and gate coupling mechanisms governing this behavior. Through this precise gate control, we demonstrate a dynamically tunable complementary inverter and implement five distinct logic functions (inverter, AND, OR, NAND, and NOR) using a single DGC-TFT device. These results highlight the promise of dual-gate architectures for compact, reconfigurable logic systems and adaptive circuit design.
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