Ideal Vacuum Circular Magnetron Sputtering Targets, TITANIUM NITRIDE- TiN Sputtering Target, 3'' Diameter x 0.125" Thick, 99.5 Percent Purity, Metallic Bonded to a OFHC Copper Backing Plate

This product is a circular magnetron TITANIUM NITRIDE- TiN sputtering target, with a 3'' diameter x 0.125" thickness. It is 99.5% pure, and is metallically bonded to a OFHC (Oxygen-Free High Conductivity) copper backing plate.

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TITANIUM NITRIDE- TiN
Titanium Nitride (TiN) is a popular material for thin films due to its unique combination of mechanical, electrical, and optical properties. Here's a summary of its key features and uses in thin films:

Refractive Index: TiN has a relatively high refractive index (~2.4 to 3.0 in the visible range), making it useful for optical applications where high reflectance or specific interference effects are needed.

Mechanical Properties: TiN is extremely hard and wear-resistant, with a hardness approaching that of diamond. It is commonly used as a protective coating for cutting tools, machining components, and wear-resistant surfaces.

Chemical and Thermal Stability: TiN is chemically inert, corrosion-resistant, and stable at high temperatures, making it suitable for harsh environments and high-temperature applications.

Electrical Conductivity: TiN is electrically conductive, which is rare for a ceramic material. This makes it useful in microelectronics as a diffusion barrier and conductive coating for components such as electrodes.

Deposition Methods: TiN can be deposited using several techniques, including DC or RF sputtering, reactive sputtering (with a titanium target and nitrogen gas), and physical vapor deposition (PVD).

Color and Appearance: TiN has a distinctive golden-yellow appearance, which is why it is also used for decorative coatings on jewelry and luxury items.

Applications: Common in optical coatings, microelectronics, cutting tool coatings, protective layers, diffusion barriers, and decorative finishes.

In summary, titanium nitride is highly valued in thin-film applications for its hardness, corrosion resistance, and electrical conductivity, making it a versatile choice in industries ranging from tooling to electronics and optics..

Notes:
Metallic or elastomer backing plate bonding is recommended for all dielectric target materials because these materials have characteristics which are not amenable to sputtering, such as, brittleness and low thermal conductivity. These targets are most susceptible to thermal shock due to their low thermal conductivity and hence, may require specific power ramp up and ramp down procedures during start up and shut down steps.