Quartz plays multiple roles in research institutes. It is an important experimental material and is widely used in the research of optics, electronics and materials science.

①In the field of physics, the optical properties of quartz make it an important tool for studying the interaction between light and matter.

②In the field of chemistry, the stability and chemical inertness of quartz make it a catalyst carrier or reaction vessel for many chemical reactions. In addition, quartz is also used to prepare high-purity chemical reagents and solvents, which are of great significance in scientific research and production.

③In the field of biomedicine, quartz materials are widely used in the manufacture of medical equipment due to their biocompatibility and stability. For example, quartz tubes can be used to prepare biosensors, which can detect various parameters in the body, such as blood sugar, blood pressure, etc., providing important basis for the diagnosis and treatment of diseases.

④With the development of nanotechnology, the research of quartz nanomaterials has gradually become a hot topic. Quartz nanomaterials have unique physical, chemical and biological properties, such as high specific surface area, excellent catalytic performance and good biocompatibility, which make them show broad application prospects in drug delivery, environmental governance and energy storage.