Flupyradifurone is a chemical compound that belongs to the class of butenolide insecticides. It has been developed for use in the control of insect pests in agricultural settings. In this article, we will provide an overview of flupyradifurone, including its chemical name, molecular formula, formula weight, CAS No., top ten keywords, synonyms, health benefits, potential effects, product mechanism, safety, side effects, and dosing information.
Chemical Name: The chemical name of flupyradifurone is 4-[3-methyl-5-(trifluoromethyl)-2-pyridinyl]-1H-pyrrole-2,5-dione.
Molecular Formula: The molecular formula of flupyradifurone is C13H8F3N2O2.
Formula Weight: The formula weight of flupyradifurone is 296.21 g/mol.
CAS No: The CAS number of flupyradifurone is 951659-40-8.
Top Ten Keywords: The top ten keywords associated with Flupyradifurone CAS: 951659-40-8 are:
Synonyms: The synonyms for flupyradifurone include:
Health Benefits: Flupyradifurone provides potential health benefits by controlling insect pests in agricultural settings. This can improve crop yields and reduce the need for other chemical controls, resulting in healthier food production.
Potential Effects: The potential effects of flupyradifurone include:
Product Mechanism: Flupyradifurone works by inhibiting the nicotinic acetylcholine receptors in the nervous systems of insects. This leads to paralysis and ultimately the death of the insect.
Safety: Flupyradifurone has been evaluated for safety and is considered safe when used as directed. It does not pose a significant risk to human or animal health when used according to the label.
Side Effects: There are no known side effects associated with the use of flupyradifurone.
Dosing Information: The optimal dose of flupyradifurone depends on the particular crop and insect pest being treated, as well as other factors such as weather conditions and application method. Consult the product label for specific dosing instructions.
Conclusion: Flupyradifurone represents a promising new compound with potential applications in the control of insect pests in agricultural settings. It works through the inhibition of nicotinic acetylcholine receptors in the nervous systems of insects, leading to paralysis and ultimately the death of the insect. While the safety and side effects of flupyradifurone are well understood, further research is needed to establish its optimal dosage and verify its efficacy under different conditions. Overall, flupyradifurone presents an exciting avenue for the development of safer and more effective chemical controls for use in agriculture, resulting in healthier food production and a reduced environmental impact.