Electroless Nickel Plating for Semiconductors

Industries

Who We Work With

Semi-Conductor

With our state-of-the-art Electroless Nickel plating process, we deliver exceptional results that meet the exacting demands of the semiconductor sector. Our expertise extends to plating exotic aluminum alloys and nickel-iron super alloys, such as invar, providing unparalleled protection and enhancing the performance of semiconductor components in challenging environments. Whether it’s ensuring the stability and reliability of critical components or achieving optimal electrical conductivity, our Electroless Nickel plating process is engineered to deliver precise and consistent coatings that exceed industry standards. As pioneers in the field, we are committed to offering cutting-edge solutions that elevate semiconductor manufacturing, fostering innovation, and empowering your semiconductor devices to operate at the peak of efficiency and reliability. Trust in our proven track record and unmatched expertise to drive your semiconductor applications to new heights of success.

Semi-Conductor Components that are anodized, plated or chemically processed:

Semiconductor Wafer Carriers:Anodizing: Wafer carriers for improved wear resistance and protection against chemical exposure.
Electroless Nickel Plating: Wafer carrier surfaces for enhanced hardness and smoothness.
Chamber Components:Anodizing: Chamber walls and components for protection against chemical reactions and wear.
Passivation: Stainless steel chamber parts for corrosion resistance.
Electrodes and Connectors:Anodizing: Electrodes and connectors for enhanced electrical insulation and protection.
Electroless Nickel Plating: Connector surfaces for improved wear resistance.
Gas Delivery Components:Anodizing: Gas delivery system parts for wear resistance and corrosion protection.
Passivation: Stainless steel gas delivery components for enhanced corrosion resistance.
Vacuum Chamber Components:Anodizing: Vacuum chamber parts for wear resistance and chemical protection.
Electroless Nickel Plating: Vacuum chamber surfaces for improved hardness and release properties.
Silicon Wafers:Anodizing: Silicon wafer edges for protection during handling and processing.
Passivation: Silicon wafer surfaces for improved electrical performance.
Sensor Components:Anodizing: Sensor housings and components for protection against harsh environments.
Electroless Nickel Plating: Sensor surfaces for enhanced durability and wear resistance.
Laser Optics:Anodizing: Laser optics components for wear resistance and protection against chemical exposure.
Electroless Nickel Plating: Optics surfaces for improved hardness and reflectivity.