Introduction to ion implantation
Ion implantation is an important engineering process in which ions of a material are accelerated in an electric field and impact a target. The process changes the physical, chemical, or electrical properties of a target and is commonly used in semiconductor device manufacturing, metal finishing, and materials science research.

Ion Implantation System
The heart of an ion implanter system is the ion beam path, where ions are generated, concentrated, accelerated, and directed to the target at high speed. Therefore, optical path materials should be able to withstand harsh conditions such as high temperatures, corrosive process gases, and strong magnetic fields. Currently, optical circuits are made from TZM, molybdenum, tungsten, graphite, ceramic, and steel.

Edgetech Industries LC supplies a wide range of ion implantation components made of Molybdenum, Tungsten, and TZM Alloy (Titanium-Zirconium-Molybdenum Alloy). For more information, please send us your inquiry.

Main features of ion implantation components:
Material compatibility: Ion implant components are made of materials with high purity, excellent thermal conductivity, and resistance to harsh environments.
Precision Design: Components are carefully designed to ensure precise beam alignment, uniform dose distribution, and minimal scattering effects.
Wear Resistance: Ion-implanted components are coated or treated to enhance wear resistance and minimize particle generation, extending their service life.
Temperature control: Integrate efficient heat dissipation methods to maintain temperature stability during ion implantation and ensure consistent results.
Customization: Ion implant components are designed to meet specific equipment configurations, implant parameters, and semiconductor device requirements.

Ion implantation component applications:
Semiconductor Manufacturing: Ion-implanted components are an integral part of doped semiconductor wafers, affecting the electrical performance of integrated circuits and other devices.
Advanced Research: These components are used in research facilities to conduct experiments involving ion beam analysis, material modification, and surface treatment studies.
Photovoltaic: Ion implantation is used in solar cell manufacturing to enhance light absorption and optimize energy conversion efficiency.
Materials Engineering: Ion-implanted components play a role in tailoring material properties such as hardness, conductivity, and corrosion resistance for specific applications.
Nanostructures: Ion implantation is used to create nanoscale patterns on surfaces for optical, electronic, and biomaterial applications.

Ion implanted component quality assurance:
Our ion-implanted components are sourced from reputable manufacturers known for their commitment to quality, precision, and innovation. Each component is rigorously tested to meet the stringent requirements of semiconductor manufacturing.

Molybdenum Cylinder & Rods
Molybdenum Rod
Molybdneum PLATE
Molybdenum Plate
Packing-1
Packing

Edgetech Industries LLC offers premium quality pure molybdenum, TZM alloys, molybdenum-lanthanum, molybdenum-rhenium alloy shaped articles, and complex parts.

Pure Metal: Plate, Sheet, Strip, Disc, Ribbon, Tube, Rod, Bar, Wire, Crucible, Fasteners, Tailor-made articles. The above product series are also applicable to molybdenum alloys.

Alloys: TZM Alloy, Mo-La Alloy, Mo-Re Alloy

Composites: Copper Molybdenum, CMC, CPC, heat sink 

Customized parts can be customized according to drawings, please send your drawings to sales@edge-techind.com.