Material: Zinc (Zn)
Purity: 99.9% ~ 99.995%
Form: Granule, Pellets, Custom Shapes
Size: 2~6mm Pellets, Can be Customized
Applications: Semiconductor Deposition, CVD, PVD, Optics Coatings
Materials: Copper Zinc Alloy
Purity: 99.9%~99.999%
Compositions: Can be Customized
Form: Powder, Granules, Pieces, Customized
Size: 1~6mm, or Tailored Sizes
Material: Tin Zinc, Composition Customized
Purity: 99.9%~99.999%
Form: Pellets, Powder, Granule, or Customized
Size: 2~6mm Pellets, Can be Customized
Applications: Semiconductor Deposition, CVD, PVD, Optics Coatings
Material: Zinc Aluminum, 99.9%~99.99%
Form: Pellets, Pieces, Powder, Customized Shapes
Other: Customized Shape, Size, and Purity
Application: Electronics, Optics, Coatings
Material: Zinc Oxide, ZnO
Purity: 99.9% ~ 99.999%
Properties: 5.61g/cc Density, 1,974°C (3,585°F) M.P.
Form: Powder, Granules, Pieces, or Customized
Size: 2~6mm Pellets, Can be Customized
Description: Zinc Oxide (ZnO) evaporation materials are prized for their exceptional electrical, optical, and chemical properties, making them highly versatile for thin-film deposition. ZnO’s semiconducting and piezoelectric properties enable its use in a range of applications from transparent conductive films in electronics to sensors and actuators.
Electrical Properties: ZnO’s high electron mobility and wide bandgap support the fabrication of high-performance semiconductor devices, including thin-film transistors, LEDs, and solar cells. Its transparent, conductive nature is perfect for electrodes and optoelectronic devices.
Optical Properties: With high transparency in visible and UV spectra and excellent luminescence, ZnO is ideal for UV filters, photodetectors, and light-emitting devices. It is also used in phosphors for lighting and displays due to its efficient light emission.
Chemical Properties: ZnO’s chemical stability and biocompatibility make it suitable for biomedical applications like drug delivery systems, biosensors, and tissue engineering scaffolds.
Applications:
Optical Coatings: ZnO thin films are extensively used in the optics industry to create anti-reflective coatings, optical filters, and high-performance mirrors. These coatings enhance the optical properties of various optical components.
Electronics: ZnO evaporation materials find application in the electronics industry for the production of thin-film transistors (TFTs), a fundamental component in flat-panel displays like LCDs and OLEDs. Their excellent electrical conductivity and transparency make them ideal for these applications.
Photovoltaics: In the field of photovoltaics, ZnO thin films serve as transparent conductive layers, facilitating efficient light absorption and electron transport in solar cells. This enhances the overall efficiency of solar energy conversion.
Sensors: ZnO coatings are employed in gas sensors and chemical sensors. Their sensitivity and selectivity make them valuable for applications requiring precise and responsive detection of gases and chemicals.
Optoelectronic Devices: ZnO evaporation materials are utilized in the production of various optoelectronic devices, including LEDs, laser diodes, and photodetectors. Their unique optical and electrical properties are highly beneficial in these applications.
Material: Zinc Selenide
Purity: 99.9% ~ 99.999%
Properties: 5.27g/cc Density, 1,100°C 0 M.P.
Form: Powder, Granules, Pieces, or Customized
Material: Zinc Sulfide
Purity: 99.9% ~ 99.999%
Properties: 5.27g/cc Density, 1,100°C 0 M.P.
Form: Granules, Pieces, or Customized
Size: 3~5mm, or Customized
Material: Indium Zinc Oxide
Composition: In2O3/ ZnO, 90/10 wt%
Purity: 99.9% ~ 99.999%
Properties: 7.3g/cc Density, 1,900°C M.P.
Form: Powder, Granules, Pieces, or Customized
Iron is a widely used metal with a metallic-gray color. It is ductile, ferromagnetic, and oxidizes easily when exposed to oxygen. It has a melting point of 1,535°C, a density of 7.86 g/cc, and a vapor pressure of 10-4 Torr at 1,180°C. Iron is used in various applications, such as tools, automobiles, and machinery. By combining it with carbon, we can create steel, which is a crucial material in the construction and automotive industries. Iron also plays a vital biological role in facilitating oxygen transport in blood. In manufacturing processes, it is evaporated under vacuum conditions to create layers for semiconductor production, magnetic storage media, fuel cells, and other applications.
Material Type | Zinc | E-Beam | Excellent |
Symbol | Zn | Thermal Evaporation Techniques | Boat: Mo, W, Ta |
Atomic Weight | 65.38 | Coil: W | |
Atomic Number | 30 | Basket: W | |
Color/Appearance | Bluish Pale Gray, Metallic | Crucible: Al2O3, Q | |
Thermal Conductivity | 116 W/m.K | E-Beam Crucible Liner Material | FABMATE®, Graphite, Tungsten |
Melting Point | 420 °C | Temp. (°C) for Given Vap. Press. (Torr) | 10-8: 127 |
Coefficient of Thermal Expansion | 30.2 x 10-6/K | 10-6: 177 | |
Theoretical Density | 7.14 g/cc | 10-4: 250 | |
Z Ratio | 0.514 | Comments | Evaporates well under wide range of conditions. |
Zinc Granules: Zinc granules are small, solid particles of zinc that are ideal for evaporation processes. They provide uniform vaporization and are highly efficient in creating thin films. These granules are preferred for their ease of handling and consistent evaporation rates.
Zinc Pellets: Zinc pellets are another form of zinc used in evaporation. These are typically larger than granules and offer a controlled evaporation process. Zinc pellets are known for their high purity and are used in applications requiring precise film thickness and uniformity.
Zinc Oxide: Zinc oxide is a versatile compound with applications in various industries. In evaporation processes, it is used to create transparent conductive oxide (TCO) layers, which are essential in solar cells and display technologies. Zinc oxide is valued for its excellent electrical properties and optical transparency.
Zinc Sulfide: Zinc sulfide is another important compound used in evaporation. It is commonly used in the fabrication of optical coatings and infrared windows. Zinc sulfide offers high transmission in the visible and infrared spectrum, making it ideal for these applications.
Zinc Selenide: Zinc selenide is widely used in the production of infrared optics and laser components. Its high refractive index and low absorption in the infrared range make it a preferred material for these applications. Zinc selenide is also used in the creation of thin-film coatings for various optical devices.
Tin Zinc: Tin zinc alloys are used in evaporation to create protective and decorative coatings. These coatings are known for their excellent corrosion resistance and aesthetic appeal. Tin zinc alloys are commonly used in automotive and architectural applications.
Zinc Copper: Zinc copper alloys are used in evaporation to produce conductive and decorative coatings. These coatings offer a balance of electrical conductivity and corrosion resistance, making them suitable for electronic components and decorative finishes.
Zinc Aluminum: Zinc aluminum alloys are used in evaporation to create lightweight and durable coatings. These coatings are commonly used in aerospace and automotive industries due to their high strength-to-weight ratio and excellent corrosion resistance.
Zinc evaporation materials are used in a wide range of applications, including:
Our Zinc Evaporation Materials are clearly labeled externally to ensure efficient identification and quality control. We take great care to prevent any damage during storage or transportation.