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Halogen-Free Anisotropic Atomic-Layer Etching of HfO<sub>2</sub> at Room Temperature.


ABSTRACT: Hafnium(IV) oxide (HfO2)-based materials have attracted substantial interest owing to their outstanding performance in advanced ultrathin semiconductor devices. However, achieving atomic-level precision and smoothness in HfO2 etching remains a major challenge, primarily due to the nonvolatility of reaction products formed with halogen-based chemicals at room temperature. Herein, a facile cyclic atomic-layer etching (ALE) process capable of etching HfO2 films at room temperature without the use of halogen-based chemicals is reported. The ALE process consists of a surface nitrogenation step via N+-ion bombardment during N2 plasma exposure, followed by O2 plasma treatment to remove the surface-modified layer through the formation of volatile etching byproducts-most likely hafnium nitrates. This process enables precise, subatomic-level etching of HfO2, achieving an etch depth per cycle ranging from 0.23 to 1.07 Å/cycle, depending on the N+ ion energy. Additionally, this cyclic ALE method effectively smooths the HfO2 surface, yielding a 60% reduction in surface roughness after 20 cycles. Based on the proposed mechanism, this facile ALE process can be extended to other transition metal oxides and offers a sustainable route for fabricating advanced functional oxide-based devices, without generating corrosive or toxic wastes.

SUBMITTER: Hsiao SN 

PROVIDER: S-EPMC12499433 | biostudies-literature | 2025 Oct

REPOSITORIES: biostudies-literature

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Halogen-Free Anisotropic Atomic-Layer Etching of HfO&lt;sub&gt;2&lt;/sub&gt; at Room Temperature.

Hsiao Shih-Nan SN   Yiu Pak-Man PM   Chang Li-Chun LC   Lee Jyh-Wei JW   Sekine Makoto M   Hori Masaru M  

Small science 20250722 10


Hafnium(IV) oxide (HfO<sub>2</sub>)-based materials have attracted substantial interest owing to their outstanding performance in advanced ultrathin semiconductor devices. However, achieving atomic-level precision and smoothness in HfO<sub>2</sub> etching remains a major challenge, primarily due to the nonvolatility of reaction products formed with halogen-based chemicals at room temperature. Herein, a facile cyclic atomic-layer etching (ALE) process capable of etching HfO<sub>2</sub> films at r  ...[more]

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