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MXene (Ti<sub>3</sub>C<sub>2</sub>) Based Pesticide Delivery System for Sustained Release and Enhanced Pest Control

Saijie Song, Xuefeng Jiang, He Shen, Wenneng Wu, Qiaoqiao Shi, Minghui Wan, Jun Zhang, Hong Mo, Jian Shen

2021ACS Applied Bio Materials75 citationsDOI

Abstract

A multifunctional nanomaterials based pesticide delivery system provides a powerful strategy for the efficient utilization of pesticides. We present here the application of a 2D MXene (Ti3C2) nanomaterial for pesticide delivery and plant protection. Avermectin (AV), a hydrophobic and unstable insecticide, was chosen as the model pesticide. In our study, AV@Ti3C2 was formed by fast adsorption of AV on Ti3C2, with a maximum loading capacity of 81.44%. Compared with hydrophobic AV, AV@Ti3C2 exhibited significantly improved water solubility, which is beneficial for ensuring the bioactivity of pesticide. The AV@Ti3C2 nanoformulation showed pH responsive slow-release behavior, overcoming the burst-release of conventional AV formulations. Besides, AV@Ti3C2 possessed excellent photostability under UV irradiation, which prolonged the persistent period of AV. Therefore, AV@Ti3C2 performed sustaining and enhanced antipest activity, according to the bioactivity assay. Furthermore, AV@Ti3C2 showed satisfactory biosafety, with no negative effect to the germination and growth of maize. Our current research provides a potential candidate, AV@Ti3C2, for pest control, and also broadens the application of 2D MXene materials in plant protection and sustainable agriculture.

Topics & Concepts

PesticideNanomaterialsMaterials scienceEnvironmental chemistryNanotechnologyChemistryBiologyAgronomyMXene and MAX Phase MaterialsGraphene and Nanomaterials ApplicationsPolymer-Based Agricultural Enhancements
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