Dong-Hyun Wang scite author profile

Dong-Hyun Wang

5Publications

1Citation Statement Received

49Citation Statements Given

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106

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Chungbuk National University

Publications

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Impact of Iterative Deuterium Annealing in Long-Channel MOSFET Performance

Wang

Jung

et al. 2022

Materials

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In contrast to conventional forming gas annealing (FGA), high-pressure deuterium annealing (HPD) shows a superior passivation of dangling bonds on the Si/SiO2 interface. However, research detailing the process optimization for HPD has been modest. In this context, this paper demonstrates the iterative impact of HPD for the better fabrication of semiconductor devices. Long-channel gate-enclosed FETs are fabricated as a test vehicle. After each cycle of the annealing, device parameters are extracted and compared depending on the number of the HPD. Based on the results, an HPD condition that maximizes on-state current (ION) but minimizes off-state current (IOFF) can be provided.

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Vacuum Inner Spacer to Improve Annealing Effect during Electro-Thermal Annealing of Nanosheet FETs

2022

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Electro-thermal annealing (ETA) in a MOSFET utilizes Joule heating. The high-temperature heat effectively cures gate dielectric damages induced by electrical stresses or ionizing radiation. However, even though ETA can be used to improve the reliability of logic and memory devices, applying ETA in state-of-the-art field-effect transistors (FETs) such as nanosheet FETs (NS FETs) has not yet been demonstrated. This paper addresses the heat distribution characteristic of an NS FET considering the application of ETA, using 3D simulations. A vacuum inner spacer is newly proposed to improve annealing effects during ETA. In addition, evaluations of the device scaling and annealing effect were performed with respect to gate length, nanosheet-to-nanosheet vertical space, and inner spacer thickness. Guidelines for ETA in NS FETs can be provided on the basis of the results.

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High Pressure Deuterium Annealing for Improved Immunity Against Stress-Induced Threshold Voltage Degradation

Jung

Shin

Kim

et al. 2022

IEEE Trans. Device Mater. Relib.

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Low-temperature deuterium annealing to improve performance and reliability in a MOSFET

Yu¹,

Wang²,

Ku³

et al. 2022

Solid-State Electronics

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Device Optimization for Short-channel Effects Suppression in UFETs

Yoon¹,

Ku²,

Lee³

et al. 2023

JSTS

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Dong-Hyun Wang

Impact of Iterative Deuterium Annealing in Long-Channel MOSFET Performance

Vacuum Inner Spacer to Improve Annealing Effect during Electro-Thermal Annealing of Nanosheet FETs

High Pressure Deuterium Annealing for Improved Immunity Against Stress-Induced Threshold Voltage Degradation

Low-temperature deuterium annealing to improve performance and reliability in a MOSFET

Device Optimization for Short-channel Effects Suppression in UFETs

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