School of Horticulture and Plant Protection, Yangzhou University, Yangzhou, China.
Medical College, Yangzhou University, Yangzhou, China.
Pest Manag Sci. 2020 Dec;76(12):4192-4201. doi: 10.1002/ps.5976. Epub 2020 Jul 28.
Owing to the advantages of high-efficiency, environmental protection and safety, nanoemulsions have become a highly popular water-insoluble pesticide delivery system in recent years.
In this study, abamectin-loaded nanoemulsion with remarkable physical stability and application performance was obtained by selecting the type and concentration of surfactant and the emulsification method. The optimal formula was 2% abamectin and 5% castor oil polyoxyethylene (EL-40) dissolved in 7.5% hydrocarbon solvent (S-200) made up to 100% with deionized water, which conformed to the quality indicators from the Food and Agriculture Organization (FAO) standards. Droplets on cabbage leaves showed a small dynamic contact angle, which ensured that the resulting nanoemulsion exhibited excellent wettability and diffusivity. Compared with emulsifiable concentrates (EC) and microemulsions (ME), the abamectin-loaded nanoemulsion had the lowest LC (0.0686 mg L ) to third-instar larva of Plutella xylostella, causing the larval body to blacken and shrivel, which improved insecticidal activity. In addition, the abamectin-loaded nanoemulsion had low cytotoxicity. The viability of dendritic cells with added nanoemulsion reached 100% after 2 h, whereas that of cells with EC and ME was lower. After 24 h, the cell viability of dendritic cells with added ME was 0.
This research facilitated the design and fabrication of nanoemulsions for water-insoluble pesticide to enhance insecticidal activity, lower cytotoxicity and reduce environmental pollution. © 2020 Society of Chemical Industry.
由于高效、环保和安全的优势,近年来,纳米乳液已成为一种非常受欢迎的水不溶性农药传递系统。
本研究通过选择表面活性剂的类型和浓度以及乳化方法,获得了具有显著物理稳定性和应用性能的阿维菌素纳米乳液。最佳配方为 2%阿维菌素和 5%蓖麻油聚氧乙烯(EL-40)溶解在 7.5%碳氢溶剂(S-200)中,用去离子水补足至 100%,符合粮农组织(FAO)标准的质量指标。白菜叶上的液滴表现出较小的动态接触角,这确保了所得纳米乳液具有优异的润湿性和扩散性。与可乳化浓缩剂(EC)和微乳液(ME)相比,载阿维菌素纳米乳液对小菜蛾三龄幼虫的 LC (0.0686mg/L)最低,导致幼虫体变黑和枯萎,从而提高了杀虫活性。此外,载阿维菌素纳米乳液的细胞毒性较低。加入纳米乳液的树突状细胞的活力在 2 小时后达到 100%,而 EC 和 ME 的细胞活力较低。24 小时后,加入 ME 的树突状细胞的活力为 0。
本研究促进了水不溶性农药纳米乳液的设计和制造,以提高杀虫活性、降低细胞毒性和减少环境污染。© 2020 英国化学学会。
