RESUMO
Over the last years, nanotechnology has contributed to the development of new botanical insecticides formulations based on essential oils (EO), which are safe for the human health and the environment. Nanoemulsions (NEs) can enhance the bioactivity of the EO to prevent the premature volatility and degradation of the active ingredients. In our work, geranium EO (Geranium maculatum L.) was used to develop micro and nanoemulsions adding Tween 80 as surfactant. For NEs formulation, ultrasound was applied and the physicochemical and ultrasound parameters were optimized: oil: surfactant ratioâ¯=â¯1:2, ultrasound powerâ¯=â¯65â¯W, sonication timeâ¯=â¯2â¯min, cyclesâ¯=â¯30 on/20 off and ultrasonic probe distanceâ¯=â¯3.7â¯cm. The NEs obtained had 13.58â¯nm and polydisperse index (PDI) values of 0.069. They were stored at 25⯰C and were stable for 60â¯days. The present study also demonstrated the potential of NEs to enhance the toxicity of geranium EO against larvae of Culex pipiens pipiens (EO LC50â¯=â¯80.97â¯ppm, NEs LC50â¯=â¯48.27â¯ppm) and Plodia interpunctella (EOâ¯+â¯ß-cypermethrin LD50â¯=â¯0.16⯵g larvae-1, NEsâ¯+â¯ß-cypermethrin LD50â¯=â¯0.07⯵g larvae-1). Overall, our findings pointed out that NEs can increase twofold the insecticidal efficacy of EO, and thus, they can be considered further for the development of botanical insecticides.