Nano Yttrium Stabilized Zirconia is a specialized product category comprising finely engineered zirconia particles with yttrium oxide at the nanoscale. This advanced material offers exceptional mechanical strength, thermal stability, and ionic conductivity. Widely used in ceramics, fuel cells, and dental applications, Nano Yttrium Stabilized Zirconia enhances material performance and lifespan. Its unique properties make it indispensable in high-temperature and corrosive environments. As a cutting-edge material in nanotechnology, Nano Yttrium Stabilized Zirconia drives innovation, enabling advancements in energy and medical technologies. With its superior properties and versatility, this product category revolutionizes industries, offering efficient and advanced solutions for various challenges and applications.
Nanometer YSZ is a new type of high-tech material with extensive and important applications. The preparation techniques of YSZ are mainly hydrothermal and reverse micelle methods.
Y2O3 stabilized ZrO2
(YSZ) Solid electrolyte with high oxygen ion conductivity, good mechanical properties, excellent oxidation and corrosion resistance
 and not reacting with electrode materials
 and other advantages to make oxygen sensors, high-temperature solid fuel cells, piezoelectric ceramics, ferroelectric ceramics, and
The main materials such as oxygen pump, and Yttrium(III) oxide stabilized zirconia powder’s ultra-fine grain size, particle uniformity and reasonable composition ratio are used to obtain high
The key to YSZ solid electrolyte is its conductivity and good mechanical strength. Therefore, the preparation of nano YSZ particles has always been a science of nanomaterial preparation
At present, people have studied and used the coprecipitation method, sol2gel method, hydrothermal method, coprecipitation gel method, alcohol water solution method, azeotropic distillation
There are many methods to prepare zirconia powder, such as distillation technology, microwave assisted method, reverse micelle method or micro lotion method.