Our Main Gases

Acetylene

Acetylene is one of the important raw materials for organic synthesis. It is also a monomer for synthetic rubber, synthetic fibers and plastics, and is also used for oxyacetylene welding and cutting.

Pure acetylene is a flammable and toxic gas with a colorless, aromatic odor. The melting point (118.656kPa) is -80.8°C, the boiling point is -84°C, and the relative density is 0.6208 (-82/4°C). Acetylene is active and can undergo addition and polymerization reactions. It can burn at high temperature (3500 ° C) and strong light in oxygen.

Ammonia

Ammonia, a kind of inorganic substance with chemical formula of NH3 and molecular weight of 17.031, is colorless and has a strong irritating odor.

High-purity ammonia is mainly used in the field of new optoelectronic materials and is an important basic material for the preparation of GAN by MOCVD technology. High-purity ammonia is also the basic material for the preparation of nitrogen trifluoride, silicon nitride, and the raw gas for the production of super high-grade nitrogen. In addition, liquid ammonia is widely used in the semiconductor industry, metallurgical industry, and other industries and scientific research that require a protective atmosphere.

Ammonia (3N)

Ammonia, a kind of inorganic substance with chemical formula of NH3 and molecular weight of 17.031, is colorless and has a strong irritating odor.

High-purity ammonia is mainly used in the field of new optoelectronic materials and is an important basic material for the preparation of GAN by MOCVD technology. High-purity ammonia is also the basic material for the preparation of nitrogen trifluoride, silicon nitride, and the raw gas for the production of super high-grade nitrogen. In addition, liquid ammonia is widely used in the semiconductor industry, metallurgical industry, and other industries and scientific research that require a protective atmosphere.

Ammonia (5N5)

Ammonia, a kind of inorganic substance with chemical formula of NH3 and molecular weight of 17.031, is colorless and has a strong irritating odor.

High-purity ammonia is mainly used in the field of new optoelectronic materials and is an important basic material for the preparation of GAN by MOCVD technology. High-purity ammonia is also the basic material for the preparation of nitrogen trifluoride, silicon nitride, and the raw gas for the production of super high-grade nitrogen. In addition, liquid ammonia is widely used in the semiconductor industry, metallurgical industry, and other industries and scientific research that require a protective atmosphere.

Ammonia (7N)

Ammonia, a kind of inorganic substance with chemical formula of NH3 and molecular weight of 17.031, is colorless and has a strong irritating odor.

High-purity ammonia is mainly used in the field of new optoelectronic materials and is an important basic material for the preparation of GAN by MOCVD technology. High-purity ammonia is also the basic material for the preparation of nitrogen trifluoride, silicon nitride, and the raw gas for the production of super high-grade nitrogen. In addition, liquid ammonia is widely used in the semiconductor industry, metallurgical industry, and other industries and scientific research that require a protective atmosphere.

Argon

Argon is one of the most common carrier gases in gas chromatography. Argon is used as a carrier gas in sputtering, plasma etching and ion implantations, and as a blanket atmosphere in crystalgrowth.*Due to market variability and unique gas requirements, we may not be able to provide a fixed pricelist. We warmly invite you to share your gas quantity and packaging requirements, enabling us to tailor a quote for you.

Argon (4N)

Argon is one of the most common carrier gases in gas chromatography. Argon is used as a carrier gas in sputtering, plasma etching and ion implantations, and as a blanket atmosphere in crystalgrowth.*Due to market variability and unique gas requirements, we may not be able to provide a fixed pricelist. We warmly invite you to share your gas quantity and packaging requirements, enabling us to tailor a quote for you.

Argon (5N)

Argon is one of the most common carrier gases in gas chromatography. Argon is used as a carrier gas in sputtering, plasma etching and ion implantations, and as a blanket atmosphere in crystalgrowth.*Due to market variability and unique gas requirements, we may not be able to provide a fixed pricelist. We warmly invite you to share your gas quantity and packaging requirements, enabling us to tailor a quote for you.

Argon (6N)

Argon is one of the most common carrier gases in gas chromatography. Argon is used as a carrier gas in sputtering, plasma etching and ion implantations, and as a blanket atmosphere in crystalgrowth.*Due to market variability and unique gas requirements, we may not be able to provide a fixed pricelist. We warmly invite you to share your gas quantity and packaging requirements, enabling us to tailor a quote for you.

Carbon Dioxide

Carbon dioxide is a colorless, odorless, tasteless and non-toxic gas. Melting point -56.6°C (0.52MPa), boiling point -78.6°C (sublimation), density 1.977g/L.

Carbon dioxide has a wide range of industrial uses.

Dry ice can be obtained by liquefying carbon dioxide into a colorless liquid under a certain pressure, and then rapidly solidifying under low pressure. Its temperature is minus 78.5 ℃. Because of its very low temperature, dry ice is often used to keep objects frozen or cryogenic.

Carbon Dioxide (3N)

Carbon dioxide is a colorless, odorless, tasteless and non-toxic gas. Melting point -56.6°C (0.52MPa), boiling point -78.6°C (sublimation), density 1.977g/L.

Carbon dioxide has a wide range of industrial uses.

Dry ice can be obtained by liquefying carbon dioxide into a colorless liquid under a certain pressure, and then rapidly solidifying under low pressure. Its temperature is minus 78.5 ℃. Because of its very low temperature, dry ice is often used to keep objects frozen or cryogenic.

Carbon Dioxide (5N)

Carbon dioxide is a colorless, odorless, tasteless and non-toxic gas. Melting point -56.6°C (0.52MPa), boiling point -78.6°C (sublimation), density 1.977g/L.

Carbon dioxide has a wide range of industrial uses.

Dry ice can be obtained by liquefying carbon dioxide into a colorless liquid under a certain pressure, and then rapidly solidifying under low pressure. Its temperature is minus 78.5 ℃. Because of its very low temperature, dry ice is often used to keep objects frozen or cryogenic.

Ethylene

Ethylene is a colorless flammable gas at normal pressure and temperature with lively properties. Its boiling point is -103.71°C, critical temperature is 9.90°C, critical pressure is 4.95MPa, and critical density is 0.227kg/L.

Ethylene is one of the most basic raw materials of petrochemical industry. In terms of synthetic materials, ethylene is widely used in the production of polyethylene, vinyl chloride, polyvinyl chloride, ethylbenzene, etc. In terms of organic synthesis, it is widely used in the synthesis of ethanol, acetic acid, propionic acid and its derivatives and other basic organic synthesis raw materials .

Ethylene is also an important basic raw material for organic chemicals, mainly used in the production of polyethylene, ethylene-propylene rubber, and polyvinyl chloride.

Hydrofluoric Acid

Hydrofluoric acid (HF) is a colorless liquid or gas known for its extreme corrosiveness. Composed of fluorine and hydrogen, it is soluble in water, releasing a significant amount of heat upon dissolution to form hydrofluoric acid aqueous solutions. Hydrofluoric acid is unique in its ability to corrode glass and metals and can react with many organic and inorganic substances.

Industrially, hydrofluoric acid is extensively used in petroleum refining, pharmaceutical production, the synthesis of high-purity inorganic substances and organic fluorocompounds, and glass etching. Its reactivity with silicon makes it indispensable in semiconductor manufacturing and glass cleaning processes.

Hydrogen

Hydrogen is a colorless, odorless, flammable gas and the lightest known gas. Hydrogen is generally non-corrosive, but at high pressures and temperatures, hydrogen can cause embrittlement in some steel grades. Hydrogen is non-toxic, but not life-sustaining, it is a suffocating agent.

High purity hydrogen finds widespread usage in the electronics industry as a reducing agent and as a carrier gas.

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