Chemodynamic Metal-Phenolic Nanopesticide Performs In Situ Hydrogen Peroxide Self-Supply against Plant Pathogens for Food Sustainability
文献类型: 外文期刊
第一作者: Wang, Mingyao
作者: Wang, Mingyao;Gou, Tingting;Wang, Xiaoling;Guo, Junling;Yang, Xiao;Huang, Tao;Yang, Qichang;Guo, Junling;Guo, Junling;Guo, Junling
作者机构:
关键词: self-assembly; metal-phenolic network; H2O2; plant pathogens; food sustainability
期刊名称:ACS SUSTAINABLE CHEMISTRY & ENGINEERING ( 影响因子:7.3; 五年影响因子:8.0 )
ISSN: 2168-0485
年卷期: 2025 年 13 卷 14 期
页码:
收录情况: SCI
摘要: The growing reliance on pesticides for food sustainability has led to environmental pollution and food safety concerns. Herein, we present a chemodynamic strategy using a Fenton-type nanopesticide, referred to as metal-phenolic ROS-nanogenerator (nanoRSG), to enhance the control of two widely spreading plant pathogens (Pseudomonas syringae and Fusarium oxysporum). The nanoRSG is constructed by the supramolecular self-assembly of natural polyphenols and Cu2+ ions, followed by an in situ transition into phenolic-stabilized CuO2 nanoclusters with the aid of hydroxide ions in the presence of H2O2. Subsequently, the nanoRSG decomposes in the pathogenic-relevant microenvironment into Fenton-catalyzed H2O2 and Cu2+ ions, followed by the highly efficient Fenton reactions for generating center dot O-2(-) to damage pathogenic cell membranes. Regarding curative effects on tomato leaves against P. syringae and F. oxysporum, nanoRSG outperforms the commercial Kocide 3000 formulations with 94.7 and 86.9% increasing efficacy, respectively. Moreover, for curative activity on tomato roots, nanoRSG also has a better performance (87.8 and 78.9%) than Kocide 3000 (31.3 and 43.9%). Besides, the biosafety of nanoRSG is confirmed by toxicity tests in zebrafish and lettuce cultivation in a field test of hydroponics. Our findings demonstrate that the metal-phenolic nanoenabled strategy offers a promising formulation for innovating conventional pesticides and enhancing food sustainability.
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