Due to their unique nano-scale characteristics—such as high specific surface areas, tunable electronic structures, and a high density of surface active sites—nano-oxides play an indispensable role across diverse scientific and industrial domains.

Our nano oxide powders include: tin oxide, indium oxide, zinc oxide, copper oxide, bismuth oxide, cerium oxide, nickel oxide, etc.

Outstanding Characteristics of Nano Oxides

• Ultra-large Specific Surface Area and High Activity

  The nanometric particle size dramatically increases the surface-area-to-volume ratio, facilitating intensified interactions with the surrounding media. This causes an increase in reactive surface area accelerates catalytic, adsorption, and chemical kinetics, enabling high-efficiency reactions at significantly lower temperatures and reducing overall energy consumption.

• Uniform Particle Size and Good Dispersibility

  Advanced synthesis techniques ensure a narrow particle size distribution and highly regular morphology. These characteristics effectively mitigate agglomeration and facilitate homogeneous dispersion within polymer, metal, and ceramic matrices, resulting in significant enhancements to the mechanical, thermal, and electrical properties of the final composite.

• Unique Optical, Electrical, and Magnetic Properties

  By leveraging quantum size and surface effects, these materials exhibit unique optical, electrical, and magnetic characteristics. Key performance indicators—including high refractive indices, tunable optical bandgaps, and superior conductivity—enable the development of next-generation optoelectronic devices and highly sensitive magnetic sensors.

• High Purity and Low Impurities

  Utilizing advanced chemical precipitation, sol-gel, and vapor-phase synthesis techniques provides exceptionally low impurity profiles. These materials meet the most stringent purity requirements of high-precision sectors, including semiconductor fabrication and advanced optical manufacturing.

• Excellent Thermal and Mechanical Properties

  The nanoparticle reinforcement effect significantly enhances the wear resistance, hardness, thermal shock resistance, corrosion resistance, and lifespan of the base material.

Wide Applications of Nano Oxides

1. Target

   Nano oxides are key raw materials for high-performance sputtering targets, such as tin oxide, indium oxide, and nickel oxide.

2. Functional Glass

   Used as additives to adjust special functions of smart glass products, such as light filtration, transparency, heat insulation, UV protection, with applications in tin oxide, zinc oxide, bismuth oxide, copper oxide, etc.

3. Functional Ceramics

   Nano oxides—such as bismuth oxide, tin oxide, and nickel oxide — serve as highly effective sintering aids that significantly enhance the structural strength and fracture toughness of ceramic matrices along with enabling the fabrication of advanced electro-functional composites, providing precise pressure-sensitive, temperature-sensitive, and dielectric properties for smart-material applications.

4. Electroplating

   Used in electroplating solution replenishing agents to enhance plating efficiency, as well as in electroplating additives to improve gloss, corrosion resistance, and wear resistance of coatings, such as copper oxide, zinc oxide, and nickel oxide.