Nanogap Channel and Reconfigurable Split-Gate Logic Achieved via Nano Scissoring on Ambipolar MoTe<sub>2</sub> Transistors

Lee, Minjong; Yu, Si Eun; Lim, June Yeong; Kim, Hyun-Jung; Im, Seongil; Lee, Young Tack

doi:10.1021/acsaelm.4c00969

ACS Appl. Electron. Mater.

2024

DOI: 10.1021/acsaelm.4c00969

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Nanogap Channel and Reconfigurable Split-Gate Logic Achieved via Nano Scissoring on Ambipolar MoTe₂ Transistors

Minjong Lee,

Si Eun Yu,

June Yeong Lim

et al.

Abstract: Nanogap engineering is developed for nanogapinduced field-effect transistors (FETs) and reconfigurable logic gates with ultrathin ambipolar 2H-MoTe 2 channels. Via nanowire scissor technique, ∼50 nm nanogap channel FET and nanogapdriven spilt-gate (SG) FET are achieved at ease. Our 50 nm channel might be long for 4 nm-thin channel MoTe 2 , so that the short channel effect may be exempted; theoretical calculation results in a characteristic channel length λ of only 14 nm. However, it seems not long enough for a… Show more

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Operating Principles of Gate Gap on Charge Transport in Split Gate Logic Thin-Film Transistors

Ko,

Kim,

Bestelink

et al. 2024

ACS Appl. Electron. Mater.

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Thin-film transistors with a split gate structure have been continuously studied for integration into future electronic devices. By introduction of a gate gap, a thin-film transistor can perform various logic circuit operations within the single channel region. However, the impact of the gate gap on the electrical characteristics of split gate thinfilm transistors has not been well investigated. In this study, we fabricated and characterized split gate thin-film transistors to realize logic OR and AND operations and conducted technology-aided computer design simulations with Silvaco Atlas simulations for logic AND implementation. Using technology computer-aided design simulations, we systematically analyzed the impact of the gate gap on the overall device characteristics as well as electric fields, energy bands, and carrier concentrations with cutlines in the channel region. Furthermore, we implemented the split gate transistor on a flexible paper substrate, demonstrating its possibility through up to 1000 bending cycle tests and indicating its potential for integration into more advanced electronic devices.

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Operating Principles of Gate Gap on Charge Transport in Split Gate Logic Thin-Film Transistors

Ko,

Kim,

Bestelink

et al. 2024

ACS Appl. Electron. Mater.

View full text Add to dashboard Cite

show abstract

Reconfigurable van der Waals Junction Field Effect Transistor with Anchored Threshold and Enhanced Subthreshold Swing for Complementary Logic

Hsu,

Liu,

Liao

et al. 2024

ACS Nano

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The emergence of reconfigurable field effect transistors has introduced a more efficient method for realizing reconfigurable circuits, significantly lowering hardware overhead and enhancing versatility. However, these devices often suffer from asymmetric transfer curves, impacting logic gate performance and reliability. This work investigates the use of the van der Waals junction field effect transistor (JFET) for reconfigurable circuit applications. We present a reconfigurable JFET realized through WSe 2 /MoS 2 van der Waals integrated heterojunctions with an optimized polarity gate design that effectively addresses the issues of unmatched threshold voltages between n-and p-FETs while also anchoring threshold voltages and reducing subthreshold swing. A complementary reconfigurable JFET inverter with the proposed gate design was demonstrated, showcasing excellent switching characteristics, symmetric transfer characteristics, and reduced power consumption, achieving a noise margin of 96.3% and a high gain of 153.82. The study further demonstrates the construction of reconfigurable NOR/NAND and XOR/XNOR logic gates with symmetric profiles and sharp switching, underscoring the versatility and effectiveness of the proposed approach. These findings highlight the potential of WSe 2 /MoS 2 JFETs in advancing low-power, high-performance, reconfigurable electronic circuits within the CMOS framework. KEYWORDS: junction field effect transistor (JFET), tungsten diselenide (WSe 2 ), reconfigurable field effect transistor (RFET), transition metal dichalcogenides (TMDCs), van der Waals heterojunctions

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Nanogap Channel and Reconfigurable Split-Gate Logic Achieved via Nano Scissoring on Ambipolar MoTe₂ Transistors

Cited by 2 publications

References 49 publications

Operating Principles of Gate Gap on Charge Transport in Split Gate Logic Thin-Film Transistors

Operating Principles of Gate Gap on Charge Transport in Split Gate Logic Thin-Film Transistors

Reconfigurable van der Waals Junction Field Effect Transistor with Anchored Threshold and Enhanced Subthreshold Swing for Complementary Logic

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Product

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About

Nanogap Channel and Reconfigurable Split-Gate Logic Achieved via Nano Scissoring on Ambipolar MoTe2 Transistors

Cited by 2 publications

References 49 publications

Operating Principles of Gate Gap on Charge Transport in Split Gate Logic Thin-Film Transistors

Operating Principles of Gate Gap on Charge Transport in Split Gate Logic Thin-Film Transistors

Reconfigurable van der Waals Junction Field Effect Transistor with Anchored Threshold and Enhanced Subthreshold Swing for Complementary Logic

Contact Info

Product

Resources

About

Nanogap Channel and Reconfigurable Split-Gate Logic Achieved via Nano Scissoring on Ambipolar MoTe₂ Transistors