Journal
SMALL
Volume -, Issue -, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.202204887
Keywords
chemicals delivery; hydrogel; magnetic-driven; nano; microrobots; pesticides
Categories
Funding
- Project Advanced Functional Nanorobots - EFRR [CZ.02.1.01/0.0/0.0/15_003/0000444]
- Grant Agency of the Czech Republic [22-04132I]
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The cost of insect pests to human society is significant, and the use of pesticides is necessary. This study explores the use of hydrogel chitosan magnetic microrobots as chemical carriers to efficiently kill mealworm larvae.
The cost of insect pests to human society exceeds USD70 billion per year worldwide in goods, livestock, and healthcare services. Therefore, pesticides are needed to prevent insect damage despite the secondary effects of these chemical agents on non-target organisms. Chemicals encapsulation into carriers is a promising strategy to improve their specificity. Hydrogel-based microrobots show enormous potential as chemical carriers. Herein, hydrogel chitosan magnetic microrobots encapsulating ethyl parathion (EP)-CHI@Fe3O4 are used to efficiently kill mealworm larvae (Tenebrio molitor). The mechanism takes advantage of pH-responsive chitosan degradation at Tenebrio molitor midgut pH to efficiently deliver pesticide into the mealworm intestinal tract in just 2 h. It is observed that under a transversal rotating magnetic field, mealworm populations show higher mortality after 30 min compared to free pesticide. This example of active pesticide carriers based on soft microrobots opens new avenues for microrobots applications in the agrochemical field as active chemical carriers.
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