Electronics

Nitrogen

Often used in cooling and purging applications, nitrogen is essential in the production of electronics and semiconductors.

Argon

With its high stability and extremely low reactivity, argon is a critical gas used in solar and semiconductor wafer production.

Hydrogen

Used by a wide variety of electronics manufacturers, hydrogen acts as a carrier gas for thin-film deposition, and as a reducing agent in furnace treatments.

Helium

Critical to the flat panel display market, helium is used as a coolant, and is also a key component in creating the controlled environments necessary to build semiconducting devices.

Silane

Silane is a key raw material for the thin film deposition of amorphous and polysilicon films in the semiconductor, display and solar industries.

Ammonia

Ammonia is the most common nitrogen precursor in the growth of nitride-based thin films and epitaxial crystals. Ultra high purity is critical for epitaxial crystal applications in the LED industry.

Carbon Dioxide

High purity carbon dioxide assists with the removal of ultra-small particles in cleaning applications, and helps prevent the collapse of photoresist during drying for critical semiconductor layers.

Dichlorosilane

Dichlorosilane enables the growth of crystalline silicon thin films at low temperatures, with higher growth rates than silane in the semiconductor and solar industries.

Trichlorosilane

Trichlorosilane enables the growth of crystalline silicon thin films at low temperatures, with higher growth rates than silane in the semiconductor and solar industries.

Phosphine

Phosphine is used as an ion-implantation source for n-type doping in semiconductor and solar fabrication, and a CVD source for n-type doping in semiconductor and display manufacturing.

Arsine

Arsine is used as an ion-implantation source for n-type doping in semiconductor fabrication. It’s also the raw material for epitaxial growth of crystalline cells in semiconductors and solar cells.

Additional Gases