Scientific Reports (Oct 2022)

Plant growth acceleration using a transparent Eu3+-painted UV-to-red conversion film

  • Sunao Shoji,
  • Hideyuki Saito,
  • Yutaka Jitsuyama,
  • Kotono Tomita,
  • Qiang Haoyang,
  • Yukiho Sakurai,
  • Yuhei Okazaki,
  • Kota Aikawa,
  • Yuki Konishi,
  • Kensei Sasaki,
  • Koji Fushimi,
  • Yuichi Kitagawa,
  • Takashi Suzuki,
  • Yasuchika Hasegawa

DOI
https://doi.org/10.1038/s41598-022-21427-6
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 7

Abstract

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Abstract The stimulation of photosynthesis is a strategy for achieving sustainable plant production. Red light is useful for plant growth because it is absorbed by chlorophyll pigments, which initiate natural photosynthetic processes. Ultraviolet (UV)-to-red wavelength-converting materials are promising candidates for eco-friendly plant cultures that do not require electric power. In this study, transparent films equipped with a UV-to-red wavelength-converting luminophore, the Eu3+ complex, were prepared on commercially available plastic films for plant growth experiments. The present Eu3+-based films absorb UV light and exhibit strong red luminescence under sunlight. Eu3+-painted films provide significant growth acceleration with size increment and biomass production for vegetal crops and trees in a northern region. The plants cultured with Eu3+-painted films had a 1.2-fold height and 1.4-fold total body biomass than those cultures without the Eu3+ luminophores. The present film can promote the plant production in fields of agriculture and forestry.