• VOC
• Hydride
• Flammables
• Pyrophoric
• Corrosive
• Toxic
• Metalorganics or Organometallics, MO
• NOx
• PFC
• Particulate / Fouling , P/F

VOC -Volatile Organic Compound. In the state of Pennsylvania a volatile organic compound is defined as an organic chemical species with a normal boiling point temperature below 100°C (i.e., the saturation temperature is less than 100°C when the saturation pressure is 101 kPa). Other states may have different (but similar) definitions.

The following website contains a list of VOC: http://www.ene.gov.on.ca/envision/monitoring/VOC_List.pdf

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Hydrides are inorganic compounds composed of hydrogen and other elements, often a metal. Examples include arsine (AsH₃), phosphine (PH₃), diborane (B₂H₆), germane (GeH₄), stibine (SbH₃), and silane (SiH₄). The listed hydrides are highly toxic and flammable. They react violently with water and oxidizing agents and pose a dangerous fire risk. Phosphine, diborane, and silane are spontaneously flammable in air.

Certain hydride gases, notably arsine and phosphine, are commonly used as dopants in semiconductor research applications. Arsine is one of the most toxic gases known. It is a potent hemolytic agent (symptoms: red discoloration of the urine and sclera). Phosphine is extremely toxic to organs of high oxygen flow and demand. Thorough emergency planning for accidental releases shall be in place when such gases are to be used in the laboratory. Provision of air-supply respiratory protection may be called for as well as continuous system monitoring for releases.

• Metal hydrides, e.g. NaH, LiAlH₄
• Nonmetal hydrides, e.g. B₂H₆ and other boranes, PH₃, AsH₃

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Flammables are chemicals in solid, liquid or gas state that have a flashpoint below 100°F. When they are near a spark, flame, or even static electricity, flammables burn at close to room temperature. Examples are: alcohol, propane, phosphorous, and many powder metals. The following web site contains the list of Flammables substances: http://www.co.forsyth.nc.us/EnvAffairs/112(r)/112(r)_Flam_List.htm

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Pyrophoric chemicals can ignite spontaneously in air at or below a temperature of 130°F. Therefore, they should be stored in tightly closed containers under an inert atmosphere and any handling of them should be carried out under an inert atmosphere or liquid as well.

For each combustible gas or vapor, there is a particular mixture with air that contains just enough oxygen to sustain combustion. Some combustible gas mixtures ignite more easily than others. Further, mixtures of the same constituents in different proportion require different amounts of spark energy to cause combustion.

LOWER EXPLOSIVE LIMIT (LEL): The leanest mixture of gas or vapor in air where, once ignition occurs, the gas or vapor will continue to burn after the source of ignition has been removed.

UPPER EXPLOSIVE LIMIT (UEL): The richest mixture in which a flame will continue to burn after the source of ignition has been removed.

FLASH POINT: The lowest temperature at which a flammable liquid gives off enough vapors to form a flammable or ignitable mixture with air near the surface of the liquid or within the container used. Many hazardous liquids have flash points at or below room temperatures, and they are normally covered by a layer of flammable vapors that will ignite in the presence of a source of ignition.

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Corrosives are harsh substances that cause visible destruction of skin and eyes on contact and internal organs, if one swallows or inhales them. Corrosives are usually concentrated forms of irritants. Examples are: Hydrofluoric acid, Sulfuric acid, Caustic soda, etc.

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Toxic is defined by OSHA 29 CFR 1910.1200 App A as a chemical which falls in any of these three categories:

1. A chemical that has a median lethal dose (LD50) of more than 50 milligrams per kilogram but not more than 500 milligrams per kilogram of body weight when administered orally to albino rats weighing between 200 and 300 grams each.
2. A chemical that has a median lethal dose (LD50) of more than 200 milligrams per kilogram but not more than 1,000 milligrams per kilogram of body weight when administered by continuous contact for 24 hours (or less if death occurs within 24 hours) with the bare skin of albino rabbits weighing between two and three kilograms each.
3. A chemical that has a median lethal concentration (LC50) in air of more than 200 parts per million but not more than 2,000 parts per million by volume of gas or vapor, or more than two milligrams per liter but not more than 20 milligrams per liter of mist, fume, or dust, when administered by continuous inhalation for one hour (or less if death occurs within one hour) to albino rats weighing between 200 and 300 grams each.

Examples used in semiconductor industry are Phosphine, Arsine, Boron Trichloride Ammonia, etc.

The following web site contains the list of Toxics substances: http://www.co.forsyth.nc.us/EnvAffairs/112(r)/112(r)_Toxics_List.htm

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Organometallics or Metalorganics are organic compounds comprised of a metal or nonmetal attached directly to carbon. Examples are Grignard compounds and metallic alkyls such as triethylaluminum and trimethylindium. Many organometallics are highly toxic or flammable. Many are also water-reactive and spontaneously combustible in air. Trialkyltins are the most toxic as a group. Most are highly reactive chemically. Special firefighting equipment (e.g., dry chemical powder fire extinguisher) may be needed where organometallics are handled.

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NOx, i.e. Nitrogen Oxides are gases containing nitrogen and oxygen that include NO, NO^₂, NO₃, N₂O, N₂O₃, N₂O₄, and N₂O₅. The first two, nitric oxide (NO), and nitrogen dioxide (NO₂) are the primary NOx pollutants. Often cited as "NOX". Nitrogen oxides affect the respiratory apparatus. High concentrations of nitrogen oxides can be detected by the typical red-brownish color of the atmosphere of the cities with heavy traffic. The nitrogen oxides are highly reactive in the atmosphere and so are major sources of photochemical smog. Together with sulphur dioxide they are also a major cause of acid rain and acid deposition. Finally, they play a role in the complex chemistry that destroys the ozone layer. In the presence of CFC'and other chlorinated compounds they can actually reduce the attack on the ozone layer, while in the absence of these compounds they will destroy the ozone layer. The major sources of NOx are combustion processes (boilers, cars, etc.). About 60 percent of NO and NO₂ emissions are from stationary sources (smokestacks) and most of the remaining 40 percent is from transportation exhaust, mainly automobiles.

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PFC - Perfluorinated Carbon is chemical compound that contains only fluorine and carbon. PFCs are not ozone-depleting substances. They do however have a high global warming potential. Perfluorinated carbons are highly volatile, linear, branched chain or cyclic perfluorinated carbons (C₁ up to C₆, fully saturated). This definition is covering the most common commercial PFC gases and liquids with boiling points up to 56°C even though there are other PFCs compounds, mainly used in closed system heat transfer applications. Examples are CF₄, C₂F₆, C₃F₈, etc.

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Particulate Fouling tends to cause loss of performance in the front-end of a system due to plugging of the feed-brine spacer or the membrane surface. Fouling is defined as the accumulation of scale or foulants on the surface of the membrane resulting in impaired performance. Therefore, the definition of fouling includes mineral scaling from the precipitation of sparingly soluble salts. More commonly, the term fouling is used primarily to refer to biological or colloidal fouling. Particulate Fouling is common problems in semiconductor abatement tools. Silica, SiO 2 are commonly found to cause fouling.

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