▎ 摘　　要

NOVELTY - Extracting bioactive compounds comprises placing organic matter inside an extraction chamber, passing continuous flow of air to heat the material using microwave for 5-15 minutes. The organic matter is stabilized with 4% humidity, and loaded in the same extraction chamber, where the solvent is organic, polar or protic polar, and can be water, ethanol or acetic acid. The matter is conditioned with 4% humidity and loaded with the solvent to start the physical change in the biological material, where the contraction and expansion of the cells of the organic material is performed in a precise manner. The molecules are functionalized selected from sodium ion, potassium ion, calcium, and magnesium ion (azeotropic mixtures). The nanoparticles are Icosahedron, liposome, nanocluster, gold nip, dendrimers, quantum dot, polymeric, nanotriangle and nanocube. The nanofibers are nano textile fiber, carbon, cellulose, and mainly carbon 60 fullerenes. USE - Method for extracting bioactive compounds derived from organic matter of plant origin. ADVANTAGE - The method allows bioactive compounds to be extracted from biological material with increased yields or concentrations 1-3 times greater compared to conventional methods, reduces time that the molecules are exposed to high temperatures and the amount of solvents used to extract molecules with biological activity of interest. DETAILED DESCRIPTION - Extracting bioactive compounds comprises placing organic matter inside an extraction chamber, passing continuous flow of air to heat the material using microwave for 5-15 minutes. The organic matter is stabilized with 4% humidity, and loaded in the same extraction chamber, where the solvent is organic, polar or protic polar, and can be water, ethanol or acetic acid. The matter is conditioned with 4% humidity and loaded with the solvent to start the physical change in the biological material, where the contraction and expansion of the cells of the organic material is performed in a precise manner. The molecules are functionalized selected from sodium ion, potassium ion, calcium, and magnesium ion (azeotropic mixtures). The nanoparticles are Icosahedron, liposome, nanocluster, gold nip, dendrimers, quantum dot, polymeric, nanotriangle and nanocube. The nanofibers are nano textile fiber, carbon, cellulose, and mainly carbon 60 fullerenes. The nanocoating for example virus-like nanoparticle, fullerene, graphene, carbon nanotube and carbon 60 fullerenes. The polar molecules for example water, ethanol and/or acetic acid. The molecules with Z potential, such as phospholipids, fatty acids, albumin, dextrone, chitosan, cellulose derivatives, poly-acrylates, poly-acrylamides or polyester.