In Situ Formation of Insect Repellent Delivery System

De Rong Lin; Li Jiang Hu

doi:10.4028/www.scientific.net/AMR.989-994.735

Paper Titles

The Crack Tip Fields for Anti-Plane Interfacial Crack between Functionally Graded and Homogeneous Piezoelectric Materials
p.719

The Preparation and Detection of Quality Standard about Houttuynia Spray
p.723

Ethylene Oligomerization by Ni(II) Complex Based on Peptide
p.727

Synthesis of Nickel(II) Complexes and its Application to Ethylene Oligomerization
p.731

In Situ Formation of Insect Repellent Delivery System
p.735

Structure of Bridged Silsesquioxane Material Bearing a Pendant Dodecylamine
p.739

Hedgehog Buckyball: High-Symmetry Complete Polyhedral Oligomeric Silsesquioxanes (POSSs) Characterized by UV-MALDI-TOF Mass Spectrometry
p.743

Effect of Temperature on the Growth and Biochemical Composition of Sargassum muticum
p.747

Numerical Simulation of Cr12MoV Steel during Quenching Process
p.751

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 989-994In Situ Formation of Insect Repellent Delivery...

In Situ Formation of Insect Repellent Delivery System

Abstract:

Conventional pesticide applications repeatedly failed to adequately control mosquito and sandflypopulations in desert areas, due to effects of either intense heat, blowing sand, ultraviolet light and/or combinations of them under severe environmental conditions. Application of citral oil to the skin provides temporary relief from pests only until the volatile terpene evaporates or is photodegraded by light. It would be advantageous to encapsulate the citral into a solid or waxy polymer that would slowly release a constant stream of citral from reservoir of the naturally occuring pesticide dissolved in the solid polymer. Polysilsesquioxanes have already proven to block UVB and are known to be oxidatively robust. In this study, a solid polysilsesquioxane pesticide delivery system was prepared free radical polymerization of an oligovinylsilsesquioxane in the presence of citral.The molecular consequences of the free radical polymerization were analyzed by MALDITOF spectrometry and the UV absorption properties of the resulting polymer-citral solution were measured by scanning spectrophotometry (SSP).