Graphene is currently one of the most popular materials for research. It has many excellent characteristics, such as high conductivity, high thermal conductivity, good mechanical properties, etc. Recently, quantum dots made of graphene have also attracted widespread attention. Graphene quantum dots are regarded as important materials for the next generation of optical, electrical, and energy storage devices, and have attracted attention due to their excellent performance advantages in various applications. This article will introduce the properties, synthesis, and applications of graphene quantum dots.
Silicon dioxide powder is widely used in various industrial fields due to its unique properties. However, as a powder, it suffers from drawbacks such as low reactivity, poor dispersion, and low surface energy. Surface modification is a way to improve the properties of silicon dioxide powder and enhance its performance in various applications. In this article, we will discuss a surface modification method for silicon dioxide powder using a silane coupling agent and its effect on the properties of silicon dioxide powder.
SAT NANO is a leading supplier of high-quality nanoscale zinc oxide powder. Our products come in two sizes, 10-20 nm and 30 nm. Besides, we have recently developed an innovative surface modification method that improves the stability and dispersibility of our nanoscale zinc oxide powder. This method is effective in converting the surface of the powder from hydrophilic to hydrophobic, thus reducing the agglomeration of particles and enhancing their performance in various applications.
Titanium dioxide is a versatile material that finds applications in multiple industries including paints, coatings, plastics, cosmetics, and pharmaceuticals, among others. However, the surface properties of titanium dioxide often limit its performance in various applications. To overcome this limitation, researchers have developed several methods for surface modification of titanium dioxide. In this article, we will explore some of the most effective methods for surface modification of titanium dioxide.
Titanium dioxide is a versatile material that finds applications in multiple industries including paints, coatings, plastics, cosmetics, and pharmaceuticals, among others. However, the surface properties of titanium dioxide often limit its performance in various applications. To overcome this limitation, researchers have developed several methods for surface modification of titanium dioxide. In this article, we will explore some of the most effective methods for surface modification of titanium dioxide.
Epoxy floor coating is commonly used for decorating and protecting the floors of buildings. However, the surfaces of these coatings often generate static electricity, which attracts dust and bacteria. The effect of static electricity on human health and the dust and conductivity of equipment cannot be ignored. Therefore, the development of anti-static epoxy floor coatings has become a hot research topic today. This article will explore the application of carbon nanotube powder in anti-static epoxy floor coatings.