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Ethanethiol

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Ethanethiol

Ethanethiol[1][2]
Skeletal structure of ethanethiol
Ball-and-stick model of the ethanethiol molecule
Names
IUPAC name
Ethanethiol
Other names
Ethyl mercaptan, Mercaptoethane, Ethyl sulfhydrate
Identifiers
 Y
ChemSpider  Y
Jmol-3D images Image
PubChem
RTECS number KI9625000
UNII  Y
UN number 2363
Properties
C2H6S
Molar mass 62.13404 g·mol−1
Appearance Colorless liquid[3]
Odor Rotten cabbage, flatulence, skunk-like[3]
Density 0.8617 g·cm−3
Melting point −148 °C (−234 °F; 125 K)
Boiling point 35 °C (95 °F; 308 K)
0.7% (20°C)[3]
Vapor pressure 442 mmHg (20°C)[3]
Acidity (pKa) 10.6
Hazards
Main hazards Nauseating
Highly Flammable F Harmful Xn Dangerous for the Environment (Nature) N
R-phrases R50/53
S-phrases S16, S25, S60, S61
NFPA 704
4
2
0
Flash point −48 °C; −55 °F; 225 K[3]
Explosive limits 2.8%-18.0%[3]
Lethal dose or concentration (LD, LC):
LD50 (Median dose)
682 mg/kg (rat, oral)[4]
4410 ppm (rat, 4 hr)
2770 (mouse, 4 hr)[4]
US health exposure limits (NIOSH):
PEL (Permissible)
C 10 ppm (25 mg/m3)[3]
REL (Recommended)
C 0.5 ppm (1.3 mg/m3) [15-minute][3]
500 ppm[3]
Related compounds
Related compounds
Methanethiol
Butanethiol
Ethanol
thiophenol
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
 Y  (: Y/N?)

Ethanethiol, commonly known as ethyl thiol group, SH. Its structure parallels that of ethanol, but with S instead of O. The odor of EtSH is infamous. Ethanethiol is more volatile than ethanol due to a diminished ability to engage in hydrogen bonding. Ethanethiol is toxic. It occurs naturally as a minor component of petroleum, and may be added to otherwise odorless gaseous products such as liquefied petroleum gas (LPG) to help warn of gas leaks. At these concentrations, ethanethiol is not harmful.

Contents

  • Preparation 1
  • Odor 2
  • Reactions 3
  • Uses 4
  • See also 5
  • References 6
  • External links 7

Preparation

Ethanethiol is prepared by the reaction of ethylene with hydrogen sulfide over a catalyst. The various producers utilize different catalysts in this process. It has also been prepared commercially by the reaction of ethanol with hydrogen sulfide gas over an acidic solid catalyst, such as alumina.[5]

Ethanethiol was originally reported by Zeise in 1834.[6] Zeise treated calcium ethyl sulfate with a suspension of barium sulfide saturated with hydrogen sulfide. He is credited with naming the C2H5S- group as mercaptum.

Ethanethiol can also be prepared by a halide displacement reaction, where ethyl halide is reacted with aqueous sodium bisulfide. This conversion was demonstrated as early as 1840 by Henri Victor Regnault.[7]

Odor

Ethanethiol has a strongly disagreeable odor that humans can detect in minute concentrations. The threshold for human detection is as low as one part in 2.8 billion parts of air. Its odor resembles that of leeks, onions, durian or cooked cabbage, but is quite distinct. Ethanethiol is intentionally added to butane and propane (see: LPG) to impart an easily noticed smell to these normally odorless fuels that pose the threat of fire, explosion, and asphyxiation.

Reactions

Ethanethiol is a valued sodium hydroxide, it gives the powerful nucleophile SEt. The salt can be generated quantitatively by reaction with sodium hydride.[8]

Ethanethiol can be oxidized to ethyl sulfonic acid, using bleach and related strong aqueous oxidants. Weaker oxidants, such as ferric oxide give the disulfide, diethyl disulfide:

2 EtSH + H2O2 → EtS-SEt + 2 H2O

Like other thiols, it behaves comparably to hydrogen sulfide. For example, it binds, concomitant with deprotonation to "soft" transition metal cations, such as Hg2+, Cu+, and Ni2+ to give polymeric thiolato complexes, Hg(SEt)2, CuSEt, and Ni(SEt)2, respectively.

Uses

In the underground mining industry, ethanethiol or ethyl mercaptan is referred to as "stench gas".[9] The gas is released into underground mine ventilation systems as an early warning system to alert mine workers during an emergency.[10] In Ontario, mining legislation dictates that "The alarm system in an underground mine shall, consist of the introduction into all workplaces of sufficient quantities of ethyl mercaptan gas or similar gas to be readily detectable by all workers".[11]

See also

References

  1. ^ Merck Index, 12th edition, 3771
  2. ^ "ICSC 0470 - ETHANETHIOL". 
  3. ^ a b c d e f g h i "NIOSH Pocket Guide to Chemical Hazards #0280".  
  4. ^ a b "Ethyl mercaptan". Immediately Dangerous to Life and Health.  
  5. ^ Norell, John; Louthan, Rector P. (1988). "Thiols". Kirk-Othmer Concise Encylclopedia of Chemical Technology (3rd ed.). New York: John Wiley & Sons, Inc. pp. 946–963.  
  6. ^ Zeise, William Christopher (1834). "Sur le Mercaptan; avec des Observations sur d'autres produits resultant de l'Action des Sulfovinates ainsi que de l'Huile de vin, sur des sulfures metalliques". Annales de Chimie et de Physique 56: 87–97. 
  7. ^ Regnault, V (1840). "Ueber die Einwirkung des Chlors auf die Chlorwasserstoffäther des Alkohols und Holzgeistes und über mehrere Punkte der Aethertheorie". Ann. 34: 24–52.  
  8. ^ Mirrington, R. N.; Feutrill, G. I. (1988). "Orcinol Monomethyl Ether".  
  9. ^ "Stench Gas". Zacon Ltd. Retrieved 20 February 2015. 
  10. ^ "A Stench Gas Warning System for Information Governance?". Barclay T Blair. Retrieved 20 February 2015. 
  11. ^ "Occupational Health and Safety Act: R.R.O. 1990, REGULATION 854 MINES AND MINING PLANTS Sect. 26(6)(a)". Ontario Ministry of Labour. Retrieved 20 February 2015. 

External links

  • NLM Hazardous Substances Databank – Ethyl mercaptan
  • CDC - NIOSH Pocket Guide to Chemical Hazards
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