One‐pot construction of epoxy resin nanocarrier delivering abamectin and its efficacy on plant root‐knot nematodes

BACKGROUND The complex preparation process and storage instability of nanoformulations hinders their development and commercialization. In this study, nanocapsules loaded with abamectin were prepared by interfacial polymerization at room temperature and ordinary pressure using the monomers of epoxy...

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Published in:Pest management science 2023-09, Vol.79 (9), p.3103-3113
Main Authors: Du, Jiang, Wang, Chonglin, Liu, Yukun, Xue, Chaobin, Ge, Jiacheng, Si, Guodong, Han, Xianzheng, Liu, Feng, Zhang, Daxia, Li, Beixing
Format: Article
Language:English
Subjects:
Abamectin
Biological activity
Commercialization
Curing agents
diamine curing agent
Diamines
Dynamic stability
Effectiveness
epoxy resin
Epoxy resins
Fungicides
Insecticides
Intramolecular structures
Macromolecules
Monomers
nanocapsule
nanosuspension system
Pesticides
Plant roots
Polymerization
Polymers
Room temperature
Storage stability
Structural stability
Suspension systems
Tomatoes
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Summary:BACKGROUND The complex preparation process and storage instability of nanoformulations hinders their development and commercialization. In this study, nanocapsules loaded with abamectin were prepared by interfacial polymerization at room temperature and ordinary pressure using the monomers of epoxy resin (ER) and diamine. The potential mechanisms of primary amine and tertiary amine in influencing the shell strength of the nanocapsules and the dynamic stability of abamectin nanocapsules (Aba@ER) in the suspension system were systematically researched. RESULTS The tertiary amine catalyzed the self‐polymerization of epoxy resin into linear macromolecules with unstable structures. The structural stability of the diamine curing agent with a primary amine group played a key role in enhancing the structural stability of the polymers. The intramolecular structure of the nanocapsule shell formed by isophorondiamine (IPDA) crosslinked epoxy resin has multiple spatial conformations and a rigid saturated six‐membered ring. Its structure was stable, and the shell strength was strong. The formulation had stable dynamic changes during storage and maintained excellent biological activity. Compared with emulsifiable concentrate (EC), Aba@ER/IPDA had superior biological activity, and the field efficacy on tomato root‐knot nematode was enhanced by approximately 31.28% at 150 days after transplanting. CONCLUSION Aba@ER/IPDA, which has excellent storage stability and simple preparation technology, can provide a nanoplatform with industrial prospects for efficient pesticide delivery. © 2023 Society of Chemical Industry. Nanocapsules loaded with abamectin were prepared by interfacial polymerization at room temperature and ordinary pressure using the monomers of epoxy resin and diamine. The structural stability of the diamine curing agent with a primary amine group played a key role in enhancing the structural stability of the polymers.
ISSN:1526-498X
1526-4998
DOI:10.1002/ps.7486