Oxides and Peroxides

Used to study the foreign foreign body acceptability (bioacceptability) on the surface of medical implants

Tellurium Oxide (TeO₃) is an important compound that plays a key role in several fields. First, it has an irreplaceable role in the production of tellurium-containing glass and ceramics. By adding TeO₃ to these materials, their optical properties can be significantly improved, such as increasing transparency and refractive index, thus making it widely used in optical instruments and precision equipment. At the same time, TeO₃ also enhances the thermal stability of the material, making it maintain good performance in high temperature environments, which is particularly important for aerospace and military applications. In addition to its applications in glass and ceramics, TeO₃ also plays an important role in the semiconductor industry. It is used as a dopant, and by incorporating specific semiconductor materials, the electrical properties of the material can be adjusted to create high-performance electronic devices. This doping technology is essential for improving the efficiency and reliability of semiconductor devices, helping to drive advances in electronics. In addition, TeO₃ also shows its unique value in the production of catalysts. It can be used as a catalyst for certain chemical reactions, accelerate the reaction process, improve the reaction efficiency, while maintaining good selectivity, which is particularly important for the production of fine chemicals in the chemical industry. By using TeO₃ as a catalyst, a more environmentally friendly and economical production process can be achieved. In the field of scientific research, TeO₃ also has important application value. It is used to study the properties of tellurium and its compounds, helping scientists better understand the structure and function of these materials. This is of great significance for the development of new materials and technologies, especially in the field of advanced materials science and technology. The unique properties of Tellurium Oxide (TeO₃) make it an integral part of the field of advanced materials science and technology. Whether it is to improve the optical performance and thermal stability, or as a dopant and catalyst, and the application in scientific research, TeO₃ has shown its wide application prospects and important research value.

In manufacture of glass of a high coefficient of refraction for optical purposes (thallium flint glass) and for artificial gems.