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"Electro-thermal annealing"

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"Electro-thermal annealing"

Electro-Thermal Annealing of 3D NAND Flash Memory Using Through-Silicon Via for Improved Heat Distribution
Young-seo Son, Khwang-sun Lee, Yu-jin Kim, Jun-young Park
J Electr Electron Mater 2023;36(1):23-28.   Published online January 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.1.4
This paper demonstrates a novel NAND flash memory structure and annealing configuration including through-silicon via (TSV) inside the silicon substrate to improve annealing efficiency using an electro-thermal annealing (ETA) technique. Compared with the conventional ETA which utilizes WL-to-WL current flow, the proposed annealing method has a higher annealing temperature as well as more uniform heat distribution, because of thermal isolation on the silicon substrate. In addition, it was found that the annealing temperature is related to the electrical and thermal conductivity of the TSV materials. As a result, it is possible to improve the reliability of NAND flash memory. All the results are discussed based on 3-dimensional (3-D) simulations with the aid of the COMSOL simulator.
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Study on Improving the Mechanical Stability of 3D NAND Flash Memory String During Electro-Thermal Annealing
Yu-jin Kim, Jun-young Park
J Electr Electron Mater 2022;35(3):246-254.   Published online May 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.3.6
Localized heat can be generated using electrically conductive word-lines built into a 3D NAND flash memory string. The heat anneals the gate dielectric layer and improves the endurance and retention characteristics of memory cells. However, even though the electro-thermal annealing can improve the memory operation, studies to investigate material failures resulting from electro-thermal stress have not been reported yet. In this context, this paper investigated how applying electro-thermal annealing of 3D NAND affected mechanical stability. Hot-spots, which are expected to be mechanically damaged during the electro-thermal annealing, can be determined based on understanding material characteristics such as thermal expansion, thermal conductivity, and electrical conductivity. Finally, several guidelines for improving mechanical stability are provided in terms of bias configuration as well as alternative materials.
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Investigation of Mechanical Stability of Nanosheet FETs During Electro-Thermal Annealing
Dong-hyun Wang, Jun-young Park
J Electr Electron Mater 2022;35(1):50-57.   Published online January 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.1.8
Reliability of CMOS has been severed under aggressive device scaling. Conventional technologies such as lightly doped drain (LDD) and forming gas annealing (FGA) have been applied for better device reliability, but further advances are modest. Alternatively, electro-thermal annealing (ETA) which utilizes Joule heat produced by electrodes in a MOSFET, has been newly introduced for gate dielectric curing. However, concerns about mechanical stability during the electro-thermal annealing, have not been discussed, yet. In this context, this paper demonstrates the mechanical stability of nanosheet FET during the electro-thermal annealing. The effect of mechanical stresses during the electro-thermal annealing was investigated with respect to device design parameters.
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