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Gradient area-selective deposition for seamless gap-filling in 3D nanostructures through surface chemical reactivity control

Author

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  • Chi Thang Nguyen

    (Incheon National University)

  • Eun-Hyoung Cho

    (Samsung Advanced Institute of Technology)

  • Bonwook Gu

    (Incheon National University)

  • Sunghee Lee

    (Samsung Advanced Institute of Technology)

  • Hae-Sung Kim

    (Samsung Advanced Institute of Technology)

  • Jeongwoo Park

    (Hongik University)

  • Neung-Kyung Yu

    (Hongik University)

  • Sangwoo Shin

    (University at Buffalo)

  • Bonggeun Shong

    (Hongik University)

  • Jeong Yub Lee

    (Samsung Advanced Institute of Technology)

  • Han-Bo-Ram Lee

    (Incheon National University)

Abstract

The integration of bottom-up fabrication techniques and top-down methods can overcome current limits in nanofabrication. For such integration, we propose a gradient area-selective deposition using atomic layer deposition to overcome the inherent limitation of 3D nanofabrication and demonstrate the applicability of the proposed method toward large-scale production of materials. Cp(CH3)5Ti(OMe)3 is used as a molecular surface inhibitor to prevent the growth of TiO2 film in the next atomic layer deposition process. Cp(CH3)5Ti(OMe)3 adsorption was controlled gradually in a 3D nanoscale hole to achieve gradient TiO2 growth. This resulted in the formation of perfectly seamless TiO2 films with a high-aspect-ratio hole structure. The experimental results were consistent with theoretical calculations based on density functional theory, Monte Carlo simulation, and the Johnson-Mehl-Avrami-Kolmogorov model. Since the gradient area-selective deposition TiO2 film formation is based on the fundamentals of molecular chemical and physical behaviours, this approach can be applied to other material systems in atomic layer deposition.

Suggested Citation

  • Chi Thang Nguyen & Eun-Hyoung Cho & Bonwook Gu & Sunghee Lee & Hae-Sung Kim & Jeongwoo Park & Neung-Kyung Yu & Sangwoo Shin & Bonggeun Shong & Jeong Yub Lee & Han-Bo-Ram Lee, 2022. "Gradient area-selective deposition for seamless gap-filling in 3D nanostructures through surface chemical reactivity control," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-35428-6
    DOI: 10.1038/s41467-022-35428-6
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    Cited by:

    1. Yicheng Li & Zilian Qi & Yuxiao Lan & Kun Cao & Yanwei Wen & Jingming Zhang & Eryan Gu & Junzhou Long & Jin Yan & Bin Shan & Rong Chen, 2023. "Self-aligned patterning of tantalum oxide on Cu/SiO2 through redox-coupled inherently selective atomic layer deposition," Nature Communications, Nature, vol. 14(1), pages 1-10, December.

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