| Acetone[1] |
|---|
 Acetone  Ball-and-stick model of acetone  Space-filling model of acetone |
| General | |
|---|---|
| Systematic name | Propanone |
| Other names | β-ketopropane
Dimethyl ketone, |
| Molecular formula | CH3COCH3 |
| SMILES | CC(=O)C |
| InChI | InChI=1/C3H6O/c1-
3(2)4/h1-2H3 |
| Molar mass | 58.09 g/mol |
| Appearance | Colorless liquid |
| CAS number | [67-64-1] |
| Properties |
|---|
| Density and phase | 0.79 g/cm³, liquid |
| Solubility in water | miscible |
| Melting point | −94.9 °C (178.2 K) |
| Boiling point | 56.3 °C (329.4 K) |
| Viscosity | 0.32 cP at 20 °C |
| Structure |
|---|
| Molecular shape | trigonal planar at C=O |
| Dipole moment | 2.91 D |
| Hazards |
|---|
| MSDS | External MSDS |
| EU classification | Flammable ('F')
Irritant ('Xi') |
| NFPA 704 | |
| R-phrases | , , , |
| S-phrases | , , , |
| Flash point | −20 °C |
Flammable limits
in air (by volume) | 2.55% - 12.80% |
| Autoignition temperature | 465 °C |
| RTECS number | AL31500000 |
| Supplementary data page |
|---|
| Structure & properties | ''n'', ''εr'', etc. |
| Thermodynamic data | Phase behaviour
Solid, liquid, gas |
| Spectral data | UV, IR, NMR, MS |
| Related compounds |
|---|
| Related ketones | Butanone |
| Related solvents | Water
Ethanol
Isopropanol
Toluene |
Except where noted otherwise, data are given for
materials in their standard state (at 25°C, 100 kPa)
|
The
chemical compound 'acetone' (also known as 'propanone', 'dimethyl ketone', '2-propanone', 'propan-2-one' and 'β-ketopropane') is the simplest representative of the
ketones. Acetone is a colorless, mobile, flammable liquid with a freezing point of −95.4 °C and boiling point of 56.53 °C. It has a
relative density of 0.819 (at 0 °C). It is readily soluble in
water,
ethanol,
ether, etc., and itself serves as an important
solvent.
The most familiar household use of acetone is as the active ingredient in
nail polish remover. Acetone is also used to make
plastic, fibers, drugs, and other chemicals.
Before the invention of the
cumene process acetone was produced by the
dry distillation of
acetates, for example
calcium acetate.
In addition to being manufactured as a chemical, acetone is also found naturally in the environment, including in small amounts in the human body.
Uses
Acetone is the strongest consumer-grade solvent available. It is ideal for thinning fiberglass resin, cleaning fiberglass tools and dissolving two-part
epoxies and
superglue before hardening. A heavy-duty degreaser, it is useful in the preparation of metal prior to painting; it also thins polyester resins, vinyl and adhesives. It easily removes residues from glass and porcelain. In biological research contexts, buffers that contain acetone (such as citrate-buffered formalin) use the acetone to
lyse cells for further experimentation.
An important industrial use for acetone involves its reaction with
phenol for the manufacture of
bisphenol A. Bisphenol A is an important component of many polymers such as
polycarbonates,
polyurethanes and
epoxy resins. Acetone is also used extensively for the safe transporting and storing of
acetylene. Vessels containing a porous material are first filled with acetone followed by acetylene, which dissolves into the acetone. One liter of acetone can dissolve around 250 liters of acetylene.
Acetone is often the primary (or only) component in
nail polish remover.
Acetonitrile, another organic solvent, is sometimes used as well. Acetone is also used as a
superglue remover. It can be used for thinning and cleaning fiberglass resins and epoxies. It is a strong solvent for most plastics and synthetic fibres.
Additionally, acetone is extremely effective when used as a cleaning agent when dealing with permanent markers.
Also acetone can be used as an artistic agent; when rubbed on the back of any laser print or laser photocopy it produces a rough ready effect.
Acetone has been used in the manufacture of
cordite. During
World War I a new process of producing acetone through
bacterial fermentation was developed by
Chaim Weizmann, the first president of
Israel, in order to help the British war effort.
Acetone can also dissolve many plastics, including those used in consumer-targeted
Nalgene bottles. Acetone is also used as a
drying agent, due to the readiness with which it mixes with water, and its volatility.
In the laboratory, acetone is used as a
polar aprotic solvent in a variety of
organic reactions, such as
SN2 reactions.
Another industrial application is to use it as a general purpose cleaner in paint and ink manufacturing operations.
Use as an automotive fuel additive
Some automotive enthusiasts add acetone at around 1 part in 500 to their fuel, following claims of dramatic improvement in fuel economy and engine life
[2]. This practice is controversial as there are counterclaims that acetone has no measurable effect or may in fact reduce engine life by adversely affecting fuel system parts
[3][4][5]. Debates on this subject and claims of Big Oil cover-up intensified when the practice was addressed on the popular American TV show
MythBusters in 2006, and shown to have negative effect in the televised fuel economy test (
Season 3, Episode 53).
Health effects
Acetone is an irritant and inhalation may lead to
hepatotoxic effects (causing liver damage). The vapors should be avoided. In no circumstance should it be consumed directly or indirectly. Always use goggles when handling acetone; it can cause permanent eye damage (
corneal clouding).
Small amounts of acetone are metabolically produced in the body, mainly from fat. In humans, fasting significantly increases its endogenous production (see
ketosis). Acetone can be elevated in
diabetes. Contamination of water, food (e.g. milk), or the air (acetone is volatile) can lead to chronic exposure to acetone. A number of acute poisoning cases have been described. Relatively speaking, acetone is not a very toxic compound; it can, however, damage the
mucosa of the
mouth and can irritate and damage skin. Accidental intake of large amounts of acetone may lead to unconsciousness and death.
The effects of long-term exposure to acetone are known mostly from animal studies.
Kidney,
liver, and
nerve damage, increased
birth defects, and lowered reproduction ability of males (only) occurred in animals exposed long-term. It is not known if these same effects would be exhibited in humans. Pregnant women should avoid contact with acetone and acetone fumes in order to avoid the possibility of birth defects, including increased brain damage.
Interestingly, acetone has been shown to have
anticonvulsant effects in animal models of
epilepsy, in the absence of toxicity, when administered in millimolar concentrations.
[6] It has been hypothesized that the high fat low carbohydrate
ketogenic diet used clinically to control drug-resistant epilepsy in children works by elevating acetone in the brain.
★
Acetone (data page)
Safety
Due to incompatibilities, it is recommended to keep acetone away from
bromine,
chlorine,
nitric acid,
sulfuric acid and
Trichloromethane.
References
1. ''Merck Index'', 11th Edition, '58'.
2. Acetone in Fuels (A Study of Dimethylketone or Propanone) Louis LaPonte
3. Acetone as a Fuel Additive
4. Click and Clack Talk Cars Tom and Ray Magliozzi
5. Can adding Acetone to fuel increase mpg by 15 to 35%?
6. Likhodii SS, Serbanescu I, Cortez MA, Murphy P, Snead OC 3rd, Burnham WM. Anticonvulsant properties of acetone, a brain ketone elevated by the ketogenic diet. ''Ann Neurol.'' 2003, 54(2):219–226),
External links
★
International Chemical Safety Card 0087
★
National Pollutant Inventory – Acetone
★
NIOSH Pocket Guide to Chemical Hazards
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