Cobalt Nickel Vanadium High-Entropy Alloy (HEA) Sputtering Target (Co/Ni/V)
Introduction
Cobalt Nickel Vanadium (Co/Ni/V) High-Entropy Alloy (HEA) Sputtering Target is an advanced multi-principal element alloy designed for functional thin film research and next-generation coating technologies. By combining cobalt, nickel, and vanadium in near-equiatomic or tailored ratios, this HEA system exhibits enhanced mechanical strength, corrosion resistance, and tunable magnetic and electronic properties. As a sputtering target, Co/Ni/V HEA enables deposition of compositionally complex alloy films with uniform microstructure and improved performance compared to conventional binary or ternary alloys.
Detailed Description
Our Co/Ni/V High-Entropy Alloy Sputtering Targets are produced using vacuum melting and homogenization processes to ensure compositional uniformity and structural stability. The HEA concept leverages high configurational entropy to stabilize solid solution phases, resulting in refined grain structure and improved resistance to segregation.
Precise control of elemental ratios allows tuning of hardness, magnetic response, electrical conductivity, and corrosion resistance in the deposited thin films. The targets are manufactured to high density with homogeneous microstructure, minimizing arcing and particle generation during sputtering. Due to their metallic conductivity, Co/Ni/V HEA targets are typically compatible with DC sputtering systems, though RF sputtering can also be used depending on deposition requirements.
Targets are available in planar round, rectangular, or custom configurations and may be supplied unbonded or bonded to copper backing plates for enhanced thermal management in high-power applications.
Applications
Cobalt Nickel Vanadium HEA Sputtering Targets are widely used in:
High-performance protective and wear-resistant coatings
Magnetic and functional alloy thin films
Corrosion-resistant surface layers
Energy and catalytic material research
Advanced structural alloy thin films
Academic and industrial R&D in high-entropy materials
Technical Parameters
| Parameter | Typical Value / Range | Importance |
|---|---|---|
| Chemical Composition | Co/Ni/V (custom ratios) | Controls mechanical & magnetic properties |
| Purity | 99.9% – 99.99% | Reduces impurity-related defects |
| Diameter | 25 – 300 mm (custom available) | Compatible with sputtering cathodes |
| Thickness | 3 – 12 mm | Influences target lifetime |
| Density | ≥ 99% theoretical | Improves plasma stability |
| Sputtering Mode | DC / RF sputtering | Suitable for conductive alloys |
| Bonding | Unbonded / Cu backing (optional) | Enhances heat dissipation |
Comparison with Related Alloy Targets
| Material | Key Advantage | Typical Application |
|---|---|---|
| Co/Ni/V HEA | Enhanced stability & tunable properties | Advanced functional coatings |
| Co/Ni Alloy | Magnetic performance | Magnetic films |
| Ni/V Alloy | Strength & corrosion resistance | Protective layers |
| Conventional Ternary Alloys | Lower entropy stabilization | Standard coatings |
FAQ
| Question | Answer |
|---|---|
| Can the elemental ratios be customized? | Yes, compositions can be tailored to meet specific mechanical or magnetic requirements. |
| Is DC sputtering suitable? | Yes, the alloy is conductive and compatible with DC sputtering systems. |
| Are bonded targets available? | Yes, copper backing plates are available for improved thermal management. |
| How is the target packaged? | Vacuum-sealed with protective foam and export-grade cartons or wooden crates. |
Packaging
Our Cobalt Nickel Vanadium High-Entropy Alloy Sputtering Targets are meticulously tagged and labeled externally to ensure efficient identification and strict quality control. Each target is vacuum-sealed and carefully packaged to prevent oxidation or mechanical damage during transport.
Conclusion
Cobalt Nickel Vanadium High-Entropy Alloy (Co/Ni/V) Sputtering Target provides a reliable solution for depositing compositionally complex alloy thin films with enhanced stability and tunable properties. With precise composition control, high density, and customizable configurations, it is well suited for advanced coating systems and high-entropy alloy research.
For detailed specifications and a quotation, please contact us at sales@thinfilmmaterials.com.
Reviews
There are no reviews yet.