Ruby Nanoparticles for Greenhouse Farming: Synthesis, Features and Application

IF 3 Q2 MATERIALS SCIENCE, COMPOSITES

Journal of Composites Science Pub Date : 2023-12-25 DOI:10.3390/jcs8010007

Mark O. Paskhin, K. O. Aiyyzhy, Roman V. Pobedonostsev, Dina V. Kazantseva, I. Rakov, Ekaterina V. Barmina, D. Yanykin, S. Gudkov

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Abstract

In this work, we investigated the effect of photoconversion covers based on ruby (chromium-doped alumina (Al2O3:Cr3+)) particles (PCC-R) on the growth and development of lettuce (Lactuca sativa) plants. Ruby particles (from 100 nm to 2 μm) were obtained by the sequential application of spall laser ablation and further laser fragmentation. The content of chromium ions relative to aluminum ions in the nanoparticles was 3.3 × 10−3. The covers with different densities of applied ruby particles (2 × 107 m−2 (PCC-R7), 2 × 108 m−2 (PCC-R8), 2 × 109 m−2 (PCC-R9)) were studied in the present work. The PCC-Rs had two wide bands of luminescence excitation. The first one was from 350 nm to 450 nm with a maximum at 405 nm, and the second one was from 500 nm to 600 nm with a peak at 550 nm. Synthesized covers emitted in the range of 650 nm to 750 nm, with a peak at 695 nm. It has been shown that PCC-R8, in contrast to PCC-R7 and PCC-R9, provided an increase in yield by 40% and was characterized by increased water use efficiency during dark respiration and assimilation of carbon dioxide in plants. It is assumed that the observed positive effect of PCC-R8 photoconversion covers is associated with the activation of regulatory mechanisms due to a qualitative change in the light spectrum.

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用于温室农业的红宝石纳米颗粒：合成、特点和应用

在这项工作中，我们研究了基于红宝石（铬掺杂氧化铝（Al2O3:Cr3+））颗粒（PCC-R）的光电转换覆盖层对莴苣（Lactuca sativa）植物生长和发育的影响。红宝石颗粒（从 100 纳米到 2 μm）是通过连续应用溅射激光烧蚀和进一步激光碎裂获得的。纳米颗粒中铬离子相对于铝离子的含量为 3.3 × 10-3。本研究对不同密度的红宝石颗粒（2 × 107 m-2 (PCC-R7)、2 × 108 m-2 (PCC-R8)、2 × 109 m-2 (PCC-R9)）覆盖层进行了研究。PCC-Rs 有两个宽的发光激发带。第一条从 350 nm 到 450 nm，在 405 nm 处达到最大值；第二条从 500 nm 到 600 nm，在 550 nm 处达到峰值。合成覆盖物的发光范围为 650 纳米至 750 纳米，峰值在 695 纳米。研究表明，与 PCC-R7 和 PCC-R9 相比，PCC-R8 的产量提高了 40%，其特点是在植物的黑暗呼吸和二氧化碳同化过程中提高了水分利用效率。据推测，所观察到的 PCC-R8 光电转换覆盖物的积极作用与光谱质变导致的调节机制激活有关。

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