Facing the complex pathogen infection microenvironment, single responsive nanopesticides hardly improved pesticide utilization. Herein, inspired by the plant cell hierarchical structure, pectin (PEC)-coated hollow mesoporous silica nanoparticles (HMSNs) were used to prepare pectinase/pH dual-responsive hexaconazole-loaded nanopesticides (Hex/HMSN-PEC) via confined enzymolysis. Its acidic pH/pectinase responsiveness adapted to Rhizoctonia solani-induced microenvironments. It exhibited potent antifungal activity (EC50 = 0.783 mg/L), comparable to commercial hexaconazole suspension (Hex SC), yet with higher efficacy. The 143 ± 2 nm Hex/HMSN-PEC enabled bidirectional vascular transport, fungal cell wall penetration, and rainwash resistance for targeted action. It minimally impacted rice seed growth, with chlorophyll content 1.72× that of Hex SC at equivalent concentrations, reducing crop damage and showing earthworm safety (LC50 ≈ twice Hex SC). This work offered a new perspective to overcome limitations of conventional pesticides in controlled release and crop safety.
Zhang et al. (Sat,) studied this question.