▎ 摘 要
NOVELTY - Preparation of new metal and nonmetal materials involves: 1) refining raw materials at 3000-5000degrees Celsius or above and forming micro or nano crystal grain; 2) performing layered separation and forming two-dimensional (2D) and three-dimensional materials (3D); 3) combining and catalyzing 2D and 3D materials to form metal and nonmetal high-performance active materials; 4) purifying 50 -60 % metal and nonmetal raw materials of size more than 50-100 meshes, to form materials of purity more than 99.9 -99.99 % and particle size more than 6000 mesh, micron or nanoscale; 5) breaking bonds of macromolecules to form small molecule materials, adding a double -forming catalyst to perform double-forming on small molecules and form small molecule materials having activity, physical property, chemical property, aging, efficacy and longer and stronger activity; 6) generating nuclear magnetic or spectral resonance to transfer energy to the new small molecular material. USE - The method is used for preparing new, small metal and nonmetal molecular materials. ADVANTAGE - The new material molecules prepared by automatic recombination of raw materials molecules, have enhanced material activity, efficiency and timeliness. DETAILED DESCRIPTION - Preparation of new metal and nonmetal materials involves: 1) refining raw materials at 3000-5000degrees Celsius or above to form material of purity 99.99 %, pulling formed crystal into crystal rod, cutting the crystal rod to form wafer and grinding to obtain micro or nano crystal grain; 2) using an electron gun, electromagnetic gun, laser gun or quantum gun to impact and separate crystal grain into a film or multilayer, performing layered separation using ultra-high speed disk centrifuge and forming two-dimensional (2D) and three-dimensional materials (3D); 3) combining and catalyzing the 2D and 3D materials to form metal and nonmetal high-performance active materials such as graphene, carbyne, fullerene, carbon nano-tube, boron alkene, silicon carbide etc.; 4) selecting 50 -60 % metal and nonmetal raw materials of size more than 50-100 meshes, which are purified in a purifying sintering furnace to form materials of purity more than 99.9 -99.99 % and particle size more than 6000 mesh, micron or nanoscale; 5) breaking bonds of macromolecules into small molecule materials by using patented graphene energy catalytic reaction equipment, adding a double -forming catalyst and performing double -forming on small molecules to form small molecule materials having activity, physical property, chemical property, aging, efficacy and longer and stronger activity; 6) performing magnetic vibration or wavelength frequency vibration to generate nuclear magnetic or spectral resonance to transfer energy to the recombined new small molecular material.