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Multi-Stimuli-Responsive, Topology-Regulated, and Lignin-Based Nano/Microcapsules from Pickering Emulsion Templates for Bidirectional Delivery of Pesticides

Bin Yu, Jingli Cheng, Yun Fang, Zhengang Xie, Qiuyu Xiong, Haonan Zhang, Wenxuan Shang, Frederik R. Wurm, Wenlong Liang, Fanglin Wei, Jinhao Zhao

2024ACS Nano129 citationsDOIOpen Access PDF

Abstract

The increasing demand for improving pesticide utilization efficiency has prompted the development of sustainable, targeted, and stimuli-responsive delivery systems. Herein, a multi-stimuli-responsive nano/microcapsule bidirectional delivery system loaded with pyraclostrobin (Pyr) is prepared through interfacial cross-linking from a lignin-based Pickering emulsion template. During this process, methacrylated alkali lignin nanoparticles (LNPs) are utilized as stabilizers for the tunable oil–water (O/W) Pickering emulsion. Subsequently, a thiol–ene radical reaction occurs with the acid-labile cross-linkers at the oil–water interface, leading to the formation of lignin nano/microcapsules (LNCs) with various topological shapes. Through the investigation of the polymerization process and the structure of LNC, it was found that the amphiphilicity-driven diffusion and distribution of cyclohexanone impact the topology of LNC. The obtained Pyr@LNC exhibits high encapsulation efficiency, tunable size, and excellent UV shielding to Pyr. Additionally, the flexible topology of the Pyr@LNC shell enhances the retention and adhesion of the foliar surface. Furthermore, Pyr@LNC exhibits pH/laccase-responsive targeting against Botrytis disease, enabling the intelligent release of Pyr. The in vivo fungicidal activity shows that efficacy of Pyr@LNC is 53% ± 2% at 14 days postspraying, whereas the effectiveness of Pyr suspension concentrate is only 29% ± 4%, and the acute toxicity of Pyr@LNC to zebrafish is reduced by more than 9-fold compared with that of Pyr technical. Moreover, confocal laser scanning microscopy shows that the LNCs can be bidirectionally translocated in plants. Therefore, the topology-regulated bidirectional delivery system LNC has great practical potential for sustainable agriculture.

Topics & Concepts

Pickering emulsionLigninChemical engineeringMaterials scienceNanotechnologyTopology (electrical circuits)NanoparticleEmulsionPolymerizationChemistryOrganic chemistryPolymerEngineeringCombinatoricsMathematicsLignin and Wood ChemistryPickering emulsions and particle stabilizationPolymer-Based Agricultural Enhancements
Multi-Stimuli-Responsive, Topology-Regulated, and Lignin-Based Nano/Microcapsules from Pickering Emulsion Templates for Bidirectional Delivery of Pesticides | Litcius