Pesticide residues treatment is a crucial issue for both agricultural production and environmental protection.In recent years,designing self-cleaning nanoformulations has emerged as a promising strategy for reducing p...Pesticide residues treatment is a crucial issue for both agricultural production and environmental protection.In recent years,designing self-cleaning nanoformulations has emerged as a promising strategy for reducing pesticide residues in a convenient and cost-effective manner.However,traditional physical blending methods of photodegradation reagents with nanocarriers have limitations in terms of pesticide residue degradation efficiency and active ingredient efficacy.Here,a new type of timing self-cleaning nanoherbicide dicamba@mSiO_(2)/ATA/TiO_(2)with a triple structure was fabricated.Dicamba,a widely used herbicide that was attracting increasing concern over its high efficiency and broad spectrum,was selected as the model herbicide and loaded on the mSiO_(2)shell.In the stage of pesticide release,the TiO_(2)and dicamba were separated by the timing-barrier.Therefore,the efficacy of dicamba was not affected by the photocatalyst.During the release process,the ATA layer continuously absorbed the reactive oxygen species(ROS)produced by TiO_(2)and was gradually degraded.Finally,the barrier was destroyed,and the residual dicamba in the carrier was degraded by TiO_(2).Compared with the traditional physical blending method,this triple structure avoided the degradation of active ingredients by photocatalysts during the pesticide release period.The experimental results suggested that this nanoformulation improved the efficacy of the herbicide,and reduced the pesticide residues,providing a new approach for self-cleaning nanopesticides research.展开更多
基金the financial support provided by the National Key R&D Program of China(2022YFA1207400)the National Key R&D Program of China(2021YFD1700105)+1 种基金the National Key R&D Program of China(2021YFA0716702)the Program of Introducing Talents of Discipline to Universities of China(111 program,B17019).
文摘Pesticide residues treatment is a crucial issue for both agricultural production and environmental protection.In recent years,designing self-cleaning nanoformulations has emerged as a promising strategy for reducing pesticide residues in a convenient and cost-effective manner.However,traditional physical blending methods of photodegradation reagents with nanocarriers have limitations in terms of pesticide residue degradation efficiency and active ingredient efficacy.Here,a new type of timing self-cleaning nanoherbicide dicamba@mSiO_(2)/ATA/TiO_(2)with a triple structure was fabricated.Dicamba,a widely used herbicide that was attracting increasing concern over its high efficiency and broad spectrum,was selected as the model herbicide and loaded on the mSiO_(2)shell.In the stage of pesticide release,the TiO_(2)and dicamba were separated by the timing-barrier.Therefore,the efficacy of dicamba was not affected by the photocatalyst.During the release process,the ATA layer continuously absorbed the reactive oxygen species(ROS)produced by TiO_(2)and was gradually degraded.Finally,the barrier was destroyed,and the residual dicamba in the carrier was degraded by TiO_(2).Compared with the traditional physical blending method,this triple structure avoided the degradation of active ingredients by photocatalysts during the pesticide release period.The experimental results suggested that this nanoformulation improved the efficacy of the herbicide,and reduced the pesticide residues,providing a new approach for self-cleaning nanopesticides research.