A multilevel core-shell structure Fe3O4@SiO2@InGaO@SiO2 magnetic particles for DNA extraction

Abstract

DNA extraction is greatly significant in biological detection fields, including species identification, pathogen detection, environmental monitoring, biosafety, and food safety. Scientific research and practical application must conduct high-quality trace DNA separation, purification and extraction. Herein, a two-step strategy successfully prepares a multilevel core–shell structure Fe3O4@SiO2@InGaO@SiO2 magnetic particles for trace DNA extraction. The morphologies, structures, elemental compositions, components, and properties of the materials are systematically characterized. Fe3O4@SiO2@InGaO@SiO2 magnetic particles in the chaotropic salt solutions are used to directly target DNA binding due to the existence of Si-O–H bond. The maximum DNA adsorption rate can highly reach 83.1 % after 700 °C annealing in the air for 30 min, far exceeding the adsorption rate of commercial reagent kit, which is attributed to the increased specific surface area. The excellent result is conducive to rapid DNA extraction in practical applications, especially in daily criminal cases, further promoting social security and stability.