Abstract
The discovery of efficient and stable nanopesticides with improved water solubility and sustained release effects has become particularly important. Pyrimethanil (Pyr) as a low toxicity fungicide of an aniline pyrimidine group is widely used for the prevention and control of gray mold in crops and ornamental plants, however, poor water solubility hinders its further development. Herein, we use a supramolecular self-assembly process to encapsulate a pyrimethanil in a hydroxypropyl-gamma-cyclodextrin (HPγCD) via electrostatic interactions, thereby constructing the inclusion complex nanofibers. The HPγCD as an environmentally friendly carrier material for pesticide delivery is favorable for facilitating the control efficacy, water solubility, and thermostability with Pyr. The diameter of the prepared inclusion nanofiber is 426.6 ± 82.1 nm. Pyr/HPγCD inclusion complex nanofibers could be completely dissolved in water within 3 s. As predicted, the fungicidal activity of Pyr/HPγCD inclusion complex nanofibers is much higher than that of either Pyr, and the EC(50) value of Pyr/HPγCD inclusion nanofibers is 0.437 μg/mL, which is about half of that of Pyr (0.840 μg/mL). The inclusion strategy achieved by Pyr and HPγCD is important for improving the safety of nanopesticides. This work provides a versatile insight to promote the development of water-based pesticide dosage forms and reduce pesticide losses in agricultural production.