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


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.

SUBMITTER: Nguyen CT 

PROVIDER: S-EPMC9734176 | biostudies-literature | 2022 Dec

REPOSITORIES: biostudies-literature

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

Nguyen Chi Thang CT   Cho Eun-Hyoung EH   Gu Bonwook B   Lee Sunghee S   Kim Hae-Sung HS   Park Jeongwoo J   Yu Neung-Kyung NK   Shin Sangwoo S   Shong Bonggeun B   Lee Jeong Yub JY   Lee Han-Bo-Ram HB  

Nature communications 20221209 1


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(CH<sub>3</sub>)<sub>5</sub>Ti(OMe)<sub>3</sub> is used as a molecular surface inhibitor to prevent the growth of TiO<  ...[more]

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