Development of spirotetramat nanoparticles based on mesoporous silica: improving the uptake and translocation of spirotetramat in plants.

Abstract

As an ideal nanocarrier, mesoporous silica nanoparticles (MSNs) have the characteristics of high specific surface area, adjustable pore size, and good biocompatibility, which are excellent carriers for improving the stability and sustained-release performance of pesticides and improving the utilization rate of pesticides In this study, three kinds of particle size MSNs (100 nm, 200 nm, and 400 nm) were prepared by hydrothermal synthesis method, and then, the spirotetramat (Stm) was loaded into MSNs with different particle sizes by solvent volatilization method to prepare Stm nanoparticles with different particle sizes (Stm@MSNs). The results of Stm@MSNs characterization showed that the three particle sizes of MSNs were 112.5, 200.1, and 439.4 nm, respectively. Besides, the pore sizes of the three MSNs were all in the range of 2~50 nm. And the FTIR spectra showed that the Stm was successfully loaded into the channel of MSNs. TGA analysis showed that Stm@MSNs-100, Stm@MSNs-200, and Stm@MSNs-400 had good thermal stability in the range of 200°C. The drug loads of Stm@MSNs-100, Stm@MSNs-200, and Stm@MSNs-400 to Stm were 38%, 21%, and 53%. The release test showed that all of them showed the characteristics of slow release. After 3 days of application on cucumber plants, Stm was detected in both upper and lower leaves of cucumber. Compared with MSNs-200 and MSNs-400, the nanocarrier MSNs-100 were more easily absorbed by cucumber plants and could carry more Stm into cucumber plants. This study provided a theoretical basis for the development and application of nanocarriers and the improvement of pesticide utilization rate by discussing the effects of different particle size MSNs on the slow release and systemicity of pesticides.