Aqueous synthesis of dark copper oxide selectively reflecting near-infrared rays

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Publication Date

May 1, 2024

Open Access

Yes

Abstract / Description

Blue copper hydroxide was synthesized by adding aqueous ammonia or sodium hydroxide to copper chloride, copper nitrate, and copper sulfate solutions, and black copper oxide was produced by heat treatment after filtration. When excess sodium hydroxide was added to copper chloride, copper nitrate, and copper sulfate solutions, the precipitated blue copper hydroxide changed to black copper oxide over time. The effects of synthesis temperature, synthesis time, and excess sodium hydroxide on the spectral reflectance of the precipitated copper oxide in the visible and near-infrared regions were determined. Under optimum conditions, it was possible to synthesize black copper oxide (II) with a visible light region reflectance of less than 5 % and a near-infrared region reflectance of more than 70 %. This copper oxide can be applied to high solar reflective paints necessary for heat island measures.

Authors

  • Yuichi Kobayashi (Department of Applied Chemistry, Aichi Institute of Technology)
  • Jun’ichi Kawano (Laboratory Development Group, Kasai industry Co.)
  • Yuh Kato (Department of Applied Chemistry, Aichi Institute of Technology)

Additional Credits

Kohei Fukushima (Department of Applied Chemistry, Aichi Institute of Technology), Kyoka Ohashi (Department of Applied Chemistry, Aichi Institute of Technology), Runa Ohtani (Department of Applied Chemistry, Aichi Institute of Technology), Tomoya Osawa (Department of Applied Chemistry, Aichi Institute of Technology)

Publisher

Journal of the Ceramic Society of Japan

Suggested Citation

Yuichi Kobayashi, Jun’ichi Kawano, Yuh Kato, Kohei Fukushima, Kyoka Ohashi, Runa Ohtani, Tomoya Osawa, Aqueous synthesis of dark copper oxide selectively reflecting near-infrared rays, Journal of the Ceramic Society of Japan, 2024, Volume 132, Issue 5, Pages 238-244, Released on J-STAGE May 01, 2024, Online ISSN 1348-6535, Print ISSN 1882-0743, https://doi.org/10.2109/jcersj2.23171