Isopropanol

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Isopropanol
isopropyl alcohol
isopropanol
IUPAC name propan-2-ol
Other names 2-Propanol
Isopropyl alcohol
Identifiers
InChI InChI=1/C3H8O/c1-3(2)4/h3-4H,1-2H3
InChIKey KFZMGEQAYNKOFK-UHFFFAOYAH
Standard InChI InChI=1S/C3H8O/c1-3(2)4/h3-4H,1-2H3
Standard InChIKey KFZMGEQAYNKOFK-UHFFFAOYSA-N
CAS number [67-63-0]
EC number 200-661-7
RTECS NT8050000
ChemSpider 3644
SMILES
Properties[1][2]
Chemical formula C3H7OH
Molar mass 60.095 g/mol
Appearance colorless liquid
Density 0.786 g/cm3 (20 ºC), liquid
Melting point

−90 °C, 183 K, -130 °F

Boiling point

82.3 °C, 355 K, 180 °F

Solubility in water miscible
log P 0.05
Vapor pressure 4.4 kPa (20 ºC)
Acidity (pKa) 16.5
λmax 204 nm
Viscosity 1.96 cP (25 °C)
Dipole moment 1.66 D (gas)
Hazards[1][3][4]
Material safety data sheet (MSDS) ICSC 0554
EU index number 603-117-00-0
GHS pictograms Flam. Liq.2Eye Irrit. 2; STOT SE 3
GHS signal word DANGER
GHS hazard statements H225, H319, H336
Flash point 12 °C
Autoignition temp. 456 ºC
Explosive limits 2–12%
PEL (U.S.) 400 ppm TWA
Related compounds
Other alcohols Ethanol
Propan-1-ol
Butan-2-ol
Other compounds Acetone
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)

Isopropanol, also known as isopropyl alcohol, propan-2-ol, 2-propanol, iso, isopro, isoprop, rubbing alcohol, or the abbreviation IPA, is a colorless, flammable chemical compound with a strong odor. It has the molecular formula C3H7OH and is the simplest example of a secondary alcohol, where the alcohol carbon is attached to two other carbons. It is an isomer of propanol.

Production

Isopropanol is produced by combining water and propene.[5] There are two processes for achieving this: indirect hydration via the sulfuric acid process and direct hydration. The former process, which can use low-quality propylene, predominates in the USA while the latter process, which requires high-purity propylene, is more commonly used in Europe. These processes give predominantly isopropyl alcohol rather than propan-1-ol because the addition of water or sulfuric acid to propylene follows Markovnikov's rule.

The indirect process reacts propylene with sulfuric acid to form a mixture of sulfate esters. Subsequent hydrolysis of these esters produces isopropanol. Direct hydration reacts propylene and water, either in gas or liquid phases, at high pressures in the presence of solid or supported acidic catalysts. Both processes require that the isopropanol be separated from water and other by-products by distillation. Isopropanol and water form an azeotrope and simple distillation gives a material which is 87.9% by weight isopropyl alcohol and 12.1% by weight water.[6] Pure (anhydrous) isopropanol is made by azeotropic distillation of the "wet" isopropyl alcohol using either diisopropyl ether or cyclohexane as azeotroping agents.

Uses

Isopropanol is cheaply available. Like acetone, it dissolves a wide range of nonpolar compounds. It is also relatively nontoxic and dries (evaporates) quickly. Thus it is used widely as a solvent and as a cleaning fluid, especially for dissolving lipophilic contaminants such as oil. Examples of this use include cleaning electronic devices such as contact pins (like those on ROM cartridges), magnetic tape and disk heads (such as those in audio and video tape recorders and floppy disk drives), the lenses of lasers in optical disc drives (e.g. CD, DVD) and removing thermal paste from IC packages (such as CPUs.) It is also used to clean LCD and glass computer monitor screens (at some risk to the anti-reflection coating of some screens), and used by many music shops to give second-hand or worn records newer-looking sheens (though it may leach plasticizer from vinyl, making it more rigid). Pure isopropanol should not be used to clean vinyl records. A basic reciepe for cleaning vinyl records is: for 1 litre, 50% isopropanol, 50% demineralised water, one or two drops of pure detergent such as Kodak PhotoFlo. It cleans white boards and other unwanted ink related marks very well (at the risk of damaging the non-stick surface of the white board). Isopropanol also works well at removing smudges, dirt, and fingerprints from cell phones and PDAs. It is effective at removing residual glue from some sticky labels (but some other adhesives used on tapes and paper labels are resistant to it.) It can also be used to remove stains from most fabrics, wood, cotton, etc. Isopropanol is also used to remove brake fluid traces from hydraulic disk brake systems, so that the brake fluid (usually DOT 3, DOT 4 or mineral oil) does not contaminate the brake pads, which would result in poor braking. In addition it can also be used to clean paintballs or other oil based products so that they may be reused, commonly known as "repainting".

As a preservative (for biological specimens) isopropanol provides a cost-effective (when compared to pure ethanol) and comparatively non-toxic alternative to formaldehyde and other synthetic preservatives. When used for the preservation of specimens in solution concentrations of 90–99% are optimal, though concentrations as low as 70% can be used in emergencies.

Sterilizing pads typically contain a 60–70% solution of isopropanol in water. Isopropanol is also commonly used as a cleaner and solvent in industry.

Isopropanol is a major ingredient in "gas dryer" fuel additives. In significant quantities, water is a problem in fuel tanks, as it separates from the gasoline, and can freeze in the supply lines at cold temperatures. The isopropanol does not remove the water from the gasoline; rather, the isopropanol solubilizes the water in the gasoline. Once soluble, the water does not pose the same risk as insoluble water as it will no longer accumulate in the supply lines and freeze. Isopropanol is often sold in aerosol cans as a windscreen de-icer.

Isopropanol is used as a water-drying aid for treating otitis externa, better known as swimmer's ear.[7]

Chemistry

Unlike ethanol or methanol, isopropanol can be separated from aqueous solutions by adding a salt such as sodium chloride, sodium sulfate, or any of several other inorganic salts, since the alcohol is much less soluble in saline solutions than in salt-free water [8] The process is colloquially called salting out, and causes concentrated isopropanol to separate into a distinct layer.

Being a secondary alcohol, isopropanol can be oxidized to the corresponding ketone acetone. This can be achieved using oxidizing agents such as chromic acid, or by dehydrogenation of isopropanol over a heated copper catalyst:

(CH3)2CH-OH → (CH3)2CO + H2

Isopropanol may be converted to 2-bromopropane using phosphorus tribromide, or dehydrated to propylene by heating with sulfuric acid.

Isopropanol is often used as a hydride source in the Meerwein–Ponndorf–Verley reduction.

Like most alcohols, isopropanol reacts with active metals such as potassium to form alkoxides which can be called isopropoxides. The reaction with aluminium (initiated by a trace of mercury) is used to prepare the catalyst aluminium isopropoxide.

Safety

Isopropyl alcohol vapor is more dense than air and is highly flammable with a very wide combustible range. It should be kept away from heat and open flame. When mixed with air or other oxidizers it can explode through deflagration.[9] Isopropyl alcohol has also been reported to form explosive peroxides.[9][10]

Like many organic solvents, long term application to the skin can cause defatting.[1]

Toxicology

Isopropanol is oxidized by the liver into acetone by alcohol dehydrogenase. Symptoms of isopropanol poisoning include flushing, headache, dizziness, CNS depression, nausea, vomiting, anesthesia, and coma. Use in well-ventilated areas and use protective gloves while using. Poisoning can occur from ingestion, inhalation, or absorption.

Isopropanol is about twice as toxic as ethanol, and acts as a central nervous system (CNS) depressant. Its metabolite, acetone, is a CNS depressant in its own right. Around 15 g of isopropanol can have a toxic effect on a 70 kg human if left untreated. However, it is not nearly as toxic as methanol or ethylene glycol. Isopropyl alcohol does not cause an anion gap acidosis (in which as lowered blood serum pH causes depletion of bicarbonate anion) as do ethanol and methanol. Isopropanol does, however, produce an osmolal gap between the calculated and measured osmolalities of serum, as do the other alcohols. Overdoses may cause a fruity odor on the breath as a result of its metabolism to acetone, which is not further metabolized.[11]

References

  1. 1.0 1.1 1.2 Isopropyl alcohol; International Chemical Safety Card 0554; International Labour Organization: Geneva, March 1999, <http://www.inchem.org/documents/icsc/icsc/eics0554.htm>.
  2. Yaws, Carl L. Chemical Properties Handbook: Physical, Thermodynamic, Environmental, Transport, Safety, and Health Related Properties for Organic and Inorganic Chemicals; McGraw-Hill: New York, 1998. ISBN 0070734011.
  3. Index no. 603-117-00-0 of Annex VI, Part 3, to Regulation (EC) No 1272/2008 of the European Parliament and of the Council of 16 December 2008 on classification, labelling and packaging of substances and mixtures, amending and repealing Directives 67/548/EEC and 1999/45/EC, and amending Regulation (EC) No 1907/2006. OJEU L353, 31.12.2008, pp 1–1355 at p 493.
  4. Isopropyl alcohol. In Pocket Guide to Chemical Hazards; U.S. Department of Health and Human Services (NIOSH) Publication No. 2005-149; Government Printing Office: Washington, DC, 2005. ISBN 9780160727511, <http://www.cdc.gov/niosh/npg/default.html>.
  5. Logsdon, John E.; Loke, Richard A. Isopropyl Alcohol. In Kirk-Othmer Encyclopedia of Chemical Technology; John Wiley: New York, 2004.
  6. Handbook of Chemistry and Physics, 44th ed.; Chemical Rubber Co.: Cleveland, OH, 1963; pp 2143–84.
  7. , <http://www.mcw.edu/pediatricoto/CommonHealthProblems/OtitisExternaSwimmersEar.htm>.
  8. The Merck Index: An Encyclopedia of Chemicals, Drugs, and Biologicals, 9th ed.; Merck, 5069.
  9. 9.0 9.1 Safety (MSDS) data for 2-propanol, <http://physchem.ox.ac.uk/MSDS/PR/2-propanol.html> (accessed 28 September 2006), Department of Chemistry, University of Oxford
  10. Hess, R. K. Chemical Safety Hazard Alert – Isopropanol, Peroxides Result in Explosion & Injury, <http://www.bnl.gov/esh/shsd/programs/Program_Area_Chemicals_Hazard_Alert_Isopropanol.asp>, Brookhaven National Laboratory, June 1997
  11. Tiess, D. Z. Ges. Hygiene 1985, 31, 530–31.

External links

Template:Antiseptics and disinfectants

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