Fabricated from high-purity zinc, the Zn target are utilized for sputtering or evaporation deposition. With excellent electrical conductivity, stable chemical properties, and superior film deposition performance, it can form dense and uniform films on various substrates and is an important functional material in fields such as optoelectronics, semiconductors, construction, and automotive.

Excellent Features of Zinc Target

• Excellent Electrical Conductivity

  Zinc films exhibit low resistivity and high current-carrying capacity. These properties effectively reduce internal resistance and significantly improve device response speed when used in transparent conductive films and electrode layers.

• Dense and Uniform Coating

  Zinc target material has fine and uniform grains, stable sputtering rate, and the deposited films are dense with strong adhesion, making it highly suitable for large-area coating production lines.

• High Chemical Stability

  The deposited films are resistant to acids, alkalis, oxidation, and corrosion, and their performance does not degrade in outdoor or high-humidity environments, thus extending the lifespan of the end products.

• High Purity

  High purity can effectively reduce the inclusion of impurity elements during sputtering or evaporation, forming films with uniform composition and fewer defects, thereby improving film density and adhesion.

Wide Applications of Zinc Target

1. Display Panels

   High-purity zinc targets are used to prepare transparent conductive films or barrier layers. With low impurities and dense films, they significantly improve panel brightness uniformity, response speed, and lifespan, meeting the strict film quality requirements of high-resolution displays such as LCD and OLED.

2. Touchscreen Technology

   In touchscreen electrode and sensing layer coatings, high-purity zinc targets help to achieve films with high transparency and low resistivity, improving touch sensitivity and stability while reducing performance degradation caused by friction and wear.

3. Photovoltaic Industry

   In the preparation of crystalline silicon and thin-film solar cells, high-purity zinc targets can be used to form transparent conductive films or buffer layers, improving photovoltaic conversion efficiency, reducing surface defects, and extending the battery's operational life.

4. Optical Coatings

   High-purity zinc targets are utilized for coating optical lenses, filters, and various types of optical glass. They provide exceptional consistency in film deposition, allowing for precise control over reflectivity and transmittance. This process enhances both the imaging quality and the long-term durability of optical systems.

5. Semiconductor Manufacturing

   High-purity zinc targets are used in semiconductor devices and advanced packaging as barrier layers, conductive layers, and functional films. This application helps reduce interface defects and improves device reliability and electrical conductivity.

6. Architectural Glass

   High-purity zinc targets are used in the preparation of low-emissivity (Low-E) films, heat-insulating films, and conductive films for architectural glass, ensuring coating stability and durability, achieving better energy-saving, heat-insulating, and decorative effects.