Research Article
Synthesis Nanoparticle of Silver Nitrate (Ag2NO3) and Carbamate (CO2NH3 derivatives) for Vector Control of Anopheles
@INPROCEEDINGS{10.4108/eai.9-10-2019.2297229, author={Mursid Raharjo and Agus Subagyo and Sulistiyani Sulistiyani}, title={Synthesis Nanoparticle of Silver Nitrate (Ag2NO3) and Carbamate (CO2NH3 derivatives) for Vector Control of Anopheles}, proceedings={Proceedings of the Third Andalas International Public Health Conference, AIPHC 2019, 10-11th October 2019, Padang, West Sumatera, Indonesia}, publisher={EAI}, proceedings_a={AIPHC}, year={2020}, month={7}, keywords={anopheles carbamate synthesis nanosilvernitrate}, doi={10.4108/eai.9-10-2019.2297229} }- Mursid Raharjo
Agus Subagyo
Sulistiyani Sulistiyani
Year: 2020
Synthesis Nanoparticle of Silver Nitrate (Ag2NO3) and Carbamate (CO2NH3 derivatives) for Vector Control of Anopheles
AIPHC
EAI
DOI: 10.4108/eai.9-10-2019.2297229
Abstract
The climate changes affecting vector breeding. Anopheles' resistance is harmful to life. Synthesis of Nanosilver (Ag2NO3) and Carbamate (CO2NH3 derivatives) is a new form in control. This research aimed to toxicity test of synthesis nano-silver and carbamate on Anopheles larvae. This was laboratory research (true experiment) used 3-4 instar stage larvae. The 21 samples calculated using an experimental approach with a completely randomized design. The number of death larvae used carbamate toxicity test at concentration 0.001 mg/lt was 74%, 0.007 mg/lt was 83% and 0.010 mg /lt was 100%. Synthesis of nano-silver and carbamate showed the death number on concentration 0.001(carbamate)+0,05(Ag2NO3)mg/lt was 73%, 0.005 mg/lt (carbamate)+0,05(Ag2NO3) mg/lt was 100%. The larvae more active in the low concentration of Ag2NO3 (0.01 mg/l-0.1 mg/l). The size of Ag2NO3 nanoparticles is 1-100 nm, which has penetrating power on Anopheles larvae. The conclusion is, synthesis of nano-silver carbamate is more effective (200%) than carbamate.
