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pH-Responsive MOF Nanoparticles Equipped with Hydrophilic “Armor” Assist Fungicides in Controlling Peanut Southern Blight

Jinzhe Chang, Xuehua Shao, Xin Wang, Jun Liu, Jian Wu, Muhammad Zeeshan, Shiqi Zhu, Pengpeng Liu, Xiaoran Miao, Pengrui Du, Zhixiang Zhang, Peiwen Zhang

2024ACS Applied Materials & Interfaces17 citationsDOI

Abstract

The development of novel, safe, and efficient pest and disease control technologies for agricultural crops remains a pivotal area of research. In this study, by combining ZIF-8 and ZIF-90, a water-stable, pH-responsive bilayer MOF nanoparticle (NP) named Z8@Z90 was created, and tebuconazole (TEB) was added to form T@Z8@Z90, used for controlling peanut southern blight. The loading efficiency of TEB within the T@Z8@Z90 reached 26.15%, enabling rapid release in acidic environments triggered by oxalic acid (OA) secreted by Sclerotium rolfsii . In vitro experiments showed that T@Z8@Z90 can regulate the oxalic acid secretion of S. rolfsii and destroy its cell membrane structure. Additional experiments revealed that T@Z8@Z90 reduced sclerotial formation, decreased the total protein content of sclerotia, and influenced their sensitivity to pesticides, thereby mitigating the risk of reinfection by S. rolfsii . Notably, T@Z8@Z90 exhibited efficient translocation within peanut seedlings, being absorbed through the roots and transported to the leaves. At a concentration of 200 mg/L, T@Z8@Z90 exhibited high safety profiles for peanut seedling growth compared to the TEB suspension. Moreover, T@Z8@Z90 is safer for earthworms than TEB SC. Overall, this study offers valuable insights for the management of soil-borne diseases in agriculture and contributes to the advancement of sustainable agricultural practices.

Topics & Concepts

Materials scienceFungicideNanoparticleBlightNanotechnologyChemical engineeringBiologyAgronomyEngineeringGas Sensing Nanomaterials and SensorsPeanut Plant Research StudiesAdvanced Battery Technologies Research