Designing nanomaterials for sustainable agriculture: Introducing largely overlooked physicochemical properties

IF 7.7 Plant Nano Biology Pub Date : 2024-11-01 Epub Date: 2024-11-27 DOI:10.1016/j.plana.2024.100121

Jiahao Liu , Han Zhou , Lin Yue , Linfeng Bao , Desheng Wang , Tingyong Mao , Zhengjun Cui , Honghong Wu , Yunlong Zhai

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Abstract

In the face of global climate change, there has been an increasing focus on sustainable agriculture. The interaction between modern agricultural research and materials science presents opportunities to manipulate plants at the atomic level. With the rapid advancement of nanotechnology in agriculture, researchers have recognized the potential of nanomaterials to regulate plant physiological and biochemical processes, facilitate efficient chemical delivery, and monitor growth status in real-time. However, only a limited range of material properties has been explored among the diverse array of nanomaterials available. In this review, we examine the applications of nanomaterials in plants through the lenses of catalytic properties, morphology, photoluminescence, and remote controllability. We aim to offer new insights into the interactions between nanomaterials and plants while providing strategies for promoting sustainable agriculture.

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为可持续农业设计纳米材料：引入很大程度上被忽视的物理化学性质

面对全球气候变化，人们越来越关注可持续农业。现代农业研究和材料科学之间的相互作用提供了在原子水平上操纵植物的机会。随着纳米技术在农业中的快速发展，研究人员已经认识到纳米材料在调节植物生理生化过程、促进化学物质高效传递和实时监测生长状态方面的潜力。然而，在各种可用的纳米材料中，只有有限范围的材料特性被探索。本文从纳米材料的催化性能、形态、光致发光和远程可控性等方面综述了纳米材料在植物中的应用。我们的目标是为纳米材料与植物之间的相互作用提供新的见解，同时为促进可持续农业提供策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plant Nano Biology

CiteScore

2.80

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0.00%

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