IEEE Open Journal of Nanotechnology (Jan 2020)

Highly Water-Repellent Nanostructure on Quartz Surface Based on Cassie-Baxter Model With Filling Factor

  • Daisuke Ohori,
  • Sou Takeuchi,
  • Masahiro Sota,
  • Teruhisa Ishida,
  • Yiming Li,
  • Jenn-Hwan Tarng,
  • Kazuhiko Endo,
  • Seiji Samukawa

DOI
https://doi.org/10.1109/OJNANO.2020.2980629
Journal volume & issue
Vol. 1
pp. 1 – 5

Abstract

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We fabricated a highly water-repellent quartz nanopillar (NP) structure to investigate the effect of varying the contact angle (CA) by using 10-nm-order gaps and 10-nm-diameter NPs. Gaps from 15 to 30 nm led to CAs of more than 100°, showing hydrophobicity, to a maximum of 105°. The mechanism of repelling water on quartz could be explained by the Cassie-Baxter model with a filling factor. A gap of more than 30 nm fills with water due to capillarity, but a gap of less than 30 nm causes water to be repelled by air. We were able to repeatedly fabricate a quartz NP structure with a controllable gap by using a combination of a bio-template and neutral-beam etching and found this structure to be highly water-repellent. The structure has high durability and optical transparency. As a result, we conclude that it can be used in sensors and lenses on various devices such as cameras and radars.

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