Hexane: Difference between revisions

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| ImageSizeR2    = 160
| ImageSizeR2    = 160
| ImageNameR2    = Spacefill model of hexane
| ImageNameR2    = Spacefill model of hexane
| PIN            = Hexane<ref>{{cite web|title=n-hexane – Compound Summary|url=https://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=8058&loc=ec_rcs|work=PubChem Compound|publisher=National Center for Biotechnology Information|access-date=31 December 2011|location=USA|date=16 September 2004|at=Identification and Related Records|url-status=live|archive-url=https://web.archive.org/web/20120308173754/http://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=8058|archive-date=8 March 2012}}</ref>
| PIN            = Hexane<ref>{{cite web|title=n-hexane – Compound Summary|url=https://pubchem.ncbi.nlm.nih.gov/compound/8058|work=PubChem Compound|publisher=National Center for Biotechnology Information|access-date=31 December 2011|location=USA|date=16 September 2004|at=Identification and Related Records|url-status=live|archive-url=https://web.archive.org/web/20120308173754/http://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=8058|archive-date=8 March 2012}}</ref>
| OtherNames    = Sextane,<ref>{{cite journal|title=I. On the action of trichloride of phosphorus on the salts of the aromatic monamines|first=August Wilhelm Von|last=Hofmann|date=1 January 1867|journal=Proceedings of the Royal Society of London|volume=15|pages=54–62|doi=10.1098/rspl.1866.0018|s2cid=98496840}}</ref> hexacarbane
| OtherNames    = Sextane,<ref>{{cite journal|title=I. On the action of trichloride of phosphorus on the salts of the aromatic monamines|first=August Wilhelm Von|last=Hofmann|date=1 January 1867|journal=Proceedings of the Royal Society of London|volume=15|pages=54–62|doi=10.1098/rspl.1866.0018|s2cid=98496840}}</ref> hexacarbane
| SystematicName =  
| SystematicName =  
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Hexanes are commonly used in [[chromatography]] as a non-polar solvent. Higher alkanes present as impurities in hexanes have similar retention times as the solvent, meaning that fractions containing hexane will also contain these impurities. In preparative chromatography, concentration of a large volume of hexanes can result in a sample that is appreciably contaminated by alkanes. This may result in a solid compound being obtained as an [[oil]] and the alkanes may interfere with analysis.
Hexanes are commonly used in [[chromatography]] as a non-polar solvent. Higher alkanes present as impurities in hexanes have similar retention times as the solvent, meaning that fractions containing hexane will also contain these impurities. In preparative chromatography, concentration of a large volume of hexanes can result in a sample that is appreciably contaminated by alkanes. This may result in a solid compound being obtained as an [[oil]] and the alkanes may interfere with analysis.


As an [[internal combustion engine]] fuel, n-hexane has low research and motor [[Octane rating|octane numbers]] of 25 and 26 respectively.<ref>{{Cite journal |last1=Al Ibrahim |first1=Emad |last2=Farooq |first2=Aamir |date=2020-01-16 |title=Octane Prediction from Infrared Spectroscopic Data |url=https://repository.kaust.edu.sa/handle/10754/660233 |journal=Energy & Fuels |volume=34 |issue=1 |pages=817–826 |doi=10.1021/acs.energyfuels.9b02816 |issn=0887-0624|url-access=subscription }}</ref> In 1983 its share in Japanese gasoline varied around 6%,<ref>{{Cite journal |last1=Ikeda |first1=Masayuki |last2=Kumai |first2=Miho |last3=Watanabe |first3=Takao |last4=Fujita |first4=Hiroyoshi |date=1984 |title=Aromatic and Other Contents in Automobile Gasoline in Japan |url=https://www.jstage.jst.go.jp/article/indhealth1963/22/4/22_4_235/_article/-char/ja/ |journal=Industrial Health |volume=22 |issue=4 |pages=235–241 |doi=10.2486/indhealth.22.235|pmid=6526699 }}</ref> in 1992 it was present in American gas between 1 and 3%,<ref>{{Cite journal |last1=Doskey |first1=Paul V. |last2=Porter |first2=Joseph A. |last3=Scheff |first3=Peter A. |date=November 1992 |title=Source Fingerprints for Volatile Non-Methane Hydrocarbons |url=https://www.tandfonline.com/doi/full/10.1080/10473289.1992.10467090 |journal=Journal of the Air & Waste Management Association |language=en |volume=42 |issue=11 |pages=1437–1445 |doi=10.1080/10473289.1992.10467090 |bibcode=1992JAWMA..42.1437D |issn=1047-3289}}</ref> and in Swedish automobile fuel in the same year the share was consistently under 2%, often below 1%.<ref>{{Cite journal |last1=Östermark |first1=Ulf |last2=Petersson |first2=Göran |date=1992-09-01 |title=Assessment of hydrocarbons in vapours of conventional and alkylate-based petrol |url=https://publications.lib.chalmers.se/records/fulltext/local_72590.pdf |journal=Chemosphere |volume=25 |issue=6 |pages=763–768 |doi=10.1016/0045-6535(92)90066-Z |bibcode=1992Chmsp..25..763O |issn=0045-6535}}</ref> By 2011 its share in US gas stood between 1 and 7%.<ref>{{cite web |date=2011 |title=Hydrocarbon Composition of Gasoline Vapor Emissions from Enclosed Fuel Tanks |url=https://nepis.epa.gov/Exe/ZyPURL.cgi?Dockey=P100GPED.TXT |website=nepis.epa.gov |publisher=United States Environmental Protection Agency}}</ref>
As an [[internal combustion engine]] fuel, n-hexane has low research and motor [[Octane rating|octane numbers]] of 25 and 26 respectively.<ref>{{Cite journal |last1=Al Ibrahim |first1=Emad |last2=Farooq |first2=Aamir |date=2020-01-16 |title=Octane Prediction from Infrared Spectroscopic Data |url=https://repository.kaust.edu.sa/handle/10754/660233 |journal=Energy & Fuels |volume=34 |issue=1 |pages=817–826 |doi=10.1021/acs.energyfuels.9b02816 |bibcode=2020EnFue..34..817A |issn=0887-0624|url-access=subscription }}</ref> In 1983 its share in Japanese gasoline varied around 6%,<ref>{{Cite journal |last1=Ikeda |first1=Masayuki |last2=Kumai |first2=Miho |last3=Watanabe |first3=Takao |last4=Fujita |first4=Hiroyoshi |date=1984 |title=Aromatic and Other Contents in Automobile Gasoline in Japan |url=https://www.jstage.jst.go.jp/article/indhealth1963/22/4/22_4_235/_article/-char/ja/ |journal=Industrial Health |volume=22 |issue=4 |pages=235–241 |doi=10.2486/indhealth.22.235|pmid=6526699 |bibcode=1984IndHe..22..235I |doi-access=free }}</ref> in 1992 it was present in American gas between 1 and 3%,<ref>{{Cite journal |last1=Doskey |first1=Paul V. |last2=Porter |first2=Joseph A. |last3=Scheff |first3=Peter A. |date=November 1992 |title=Source Fingerprints for Volatile Non-Methane Hydrocarbons |url=https://www.tandfonline.com/doi/full/10.1080/10473289.1992.10467090 |journal=Journal of the Air & Waste Management Association |language=en |volume=42 |issue=11 |pages=1437–1445 |doi=10.1080/10473289.1992.10467090 |bibcode=1992JAWMA..42.1437D |issn=1047-3289}}</ref> and in Swedish automobile fuel in the same year the share was consistently under 2%, often below 1%.<ref>{{Cite journal |last1=Östermark |first1=Ulf |last2=Petersson |first2=Göran |date=1992-09-01 |title=Assessment of hydrocarbons in vapours of conventional and alkylate-based petrol |url=https://publications.lib.chalmers.se/records/fulltext/local_72590.pdf |journal=Chemosphere |volume=25 |issue=6 |pages=763–768 |doi=10.1016/0045-6535(92)90066-Z |bibcode=1992Chmsp..25..763O |issn=0045-6535}}</ref> By 2011 its share in US gas stood between 1 and 7%.<ref>{{cite web |date=2011 |title=Hydrocarbon Composition of Gasoline Vapor Emissions from Enclosed Fuel Tanks |url=https://nepis.epa.gov/Exe/ZyPURL.cgi?Dockey=P100GPED.TXT |website=nepis.epa.gov |publisher=United States Environmental Protection Agency}}</ref>


==Production==
==Production==
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== Safety ==
== Safety ==
Inhalation of ''n''-hexane at 5000&nbsp;ppm for 10&nbsp;minutes produces marked vertigo; 2500-1000&nbsp;ppm for 12 hours produces [[drowsiness]], [[Fatigue (medical)|fatigue]], loss of appetite, and [[paresthesia]] in the distal extremities; 2500–5000&nbsp;ppm produces muscle weakness, cold pulsation in the extremities, blurred vision, [[headache]], and [[Anorexia (symptom)|anorexia]].<ref>{{cite web|url=http://toxnet.nlm.nih.gov/cgi-bin/sis/search/a?dbs+hsdb:@term+@DOCNO+91|publisher=[[National Library of Medicine]]|work=Toxicology data network Hazardous Substances Data Bank|title=N-HEXANE|url-status=live|archive-url=https://web.archive.org/web/20150904103024/http://toxnet.nlm.nih.gov/cgi-bin/sis/search/a?dbs+hsdb:@term+@DOCNO+91|archive-date=4 September 2015}}</ref> Chronic occupational exposure to elevated levels of ''n''-hexane has been demonstrated to be associated with [[peripheral neuropathy]] in [[Auto mechanic|auto mechanics]] in the US, and [[neurotoxicity]] in workers in printing presses, and shoe and furniture factories in Asia, Europe, and North America.<ref>{{Cite journal|last=Centers for Disease Control and Prevention (CDC)|date=2001-11-16|title=n-Hexane-related peripheral neuropathy among automotive technicians--California, 1999-2000|journal=MMWR. Morbidity and Mortality Weekly Report|volume=50|issue=45|pages=1011–1013|issn=0149-2195|pmid=11724159}}</ref>
Inhalation of ''n''-hexane at 5000&nbsp;ppm for 10&nbsp;minutes produces marked vertigo; 2500-1000&nbsp;ppm for 12 hours produces [[drowsiness]], [[Fatigue (medical)|fatigue]], loss of appetite, and [[paresthesia]] in the distal extremities; 2500–5000&nbsp;ppm produces muscle weakness, cold pulsation in the extremities, blurred vision, [[headache]], and [[Anorexia (symptom)|anorexia]].<ref>{{cite web|url=https://www.nlm.nih.gov/toxnet/index.html|publisher=[[National Library of Medicine]]|work=Toxicology data network Hazardous Substances Data Bank|title=N-HEXANE|url-status=live|archive-url=https://web.archive.org/web/20150904103024/http://toxnet.nlm.nih.gov/cgi-bin/sis/search/a?dbs+hsdb:@term+@DOCNO+91|archive-date=4 September 2015}}</ref> Chronic occupational exposure to elevated levels of ''n''-hexane has been demonstrated to be associated with [[peripheral neuropathy]] in [[Auto mechanic|auto mechanics]] in the US, and [[neurotoxicity]] in workers in printing presses, and shoe and furniture factories in Asia, Europe, and North America.<ref>{{Cite journal|last=Centers for Disease Control and Prevention (CDC)|date=2001-11-16|title=n-Hexane-related peripheral neuropathy among automotive technicians--California, 1999-2000|journal=MMWR. Morbidity and Mortality Weekly Report|volume=50|issue=45|pages=1011–1013|issn=0149-2195|pmid=11724159}}</ref>


The US [[National Institute for Occupational Safety and Health]] (NIOSH) has set a [[recommended exposure limit]] (REL) for hexane isomers (not ''n''-hexane) of 100 ppm ({{Convert|350|mg/m3|abbr=on}}) over an 8-hour workday.<ref>{{Cite web|title = CDC – NIOSH Pocket Guide to Chemical Hazards – Hexane isomers (excluding n-Hexane)|url = https://www.cdc.gov/niosh/npg/npgd0323.html|work = cdc.gov|access-date = 2015-11-03|url-status = live|archive-url = https://web.archive.org/web/20151031004609/http://www.cdc.gov/niosh/npg/npgd0323.html|archive-date = 31 October 2015}}</ref> However, for ''n''-hexane, the current NIOSH REL is 50 ppm ({{Convert|180|mg/m3|abbr=on|}}) over an 8-hour workday.<ref name=":0">{{Cite web|title=n-Hexane|url=https://www.cdc.gov/niosh/npg/npgd0322.html|last=CDC|date=2018-03-28|website=Centers for Disease Control and Prevention|language=en-us|access-date=2020-05-03}}</ref> This limit was proposed as a [[permissible exposure limit]] (PEL) by the [[Occupational Safety and Health Administration]] in 1989; however, this PEL was overruled in US courts in 1992.<ref>{{Cite web|title=Appendix G: 1989 Air Contaminants Update Project - Exposure Limits NOT in Effect|url=https://www.cdc.gov/niosh/npg/nengapdxg.html|date=2020-02-20|website=www.cdc.gov|language=en-us|access-date=2020-05-03}}</ref> The current n-hexane PEL in the US is 500 ppm ({{Convert|1800|mg/m3|abbr=on|}}).<ref name=":0" />
The US [[National Institute for Occupational Safety and Health]] (NIOSH) has set a [[recommended exposure limit]] (REL) for hexane isomers (not ''n''-hexane) of 100 ppm ({{Convert|350|mg/m3|abbr=on}}) over an 8-hour workday.<ref>{{Cite web|title = CDC – NIOSH Pocket Guide to Chemical Hazards – Hexane isomers (excluding n-Hexane)|url = https://www.cdc.gov/niosh/npg/npgd0323.html|work = cdc.gov|access-date = 2015-11-03|url-status = live|archive-url = https://web.archive.org/web/20151031004609/http://www.cdc.gov/niosh/npg/npgd0323.html|archive-date = 31 October 2015}}</ref> However, for ''n''-hexane, the current NIOSH REL is 50 ppm ({{Convert|180|mg/m3|abbr=on|}}) over an 8-hour workday.<ref name=":0">{{Cite web|title=n-Hexane|url=https://www.cdc.gov/niosh/npg/npgd0322.html|last=CDC|date=2018-03-28|website=Centers for Disease Control and Prevention|language=en-us|access-date=2020-05-03}}</ref> This limit was proposed as a [[permissible exposure limit]] (PEL) by the [[Occupational Safety and Health Administration]] in 1989; however, this PEL was overruled in US courts in 1992.<ref>{{Cite web|title=Appendix G: 1989 Air Contaminants Update Project - Exposure Limits NOT in Effect|url=https://www.cdc.gov/niosh/npg/nengapdxg.html|date=2020-02-20|website=www.cdc.gov|language=en-us|access-date=2020-05-03}}</ref> The current n-hexane PEL in the US is 500 ppm ({{Convert|1800|mg/m3|abbr=on|}}).<ref name=":0" />
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Hexane and other volatile hydrocarbons ([[petroleum ether]]) present an [[Aspiration pneumonia|aspiration]] risk.<ref>{{citation | author=Gad, Shayne C | contribution=Petroleum Hydrocarbons | title=Encyclopedia of Toxicology | edition=2nd | volume=3 | publisher=Elsevier | year=2005 | pages=377–379}}</ref> ''n''-Hexane is sometimes used as a [[Denaturation (food)|denaturant]] for alcohol, and as a cleaning agent in the [[textile]], [[furniture]], and leather industries. It is slowly being replaced with other solvents.<ref name="tox">{{cite book | author=Clough, Stephen R | author2=Mulholland, Leyna | contribution=Hexane | title=Encyclopedia of Toxicology | volume=2 | edition=2nd | year=2005 | publisher=Elsevier | pages=522–525}}</ref>
Hexane and other volatile hydrocarbons ([[petroleum ether]]) present an [[Aspiration pneumonia|aspiration]] risk.<ref>{{citation | author=Gad, Shayne C | contribution=Petroleum Hydrocarbons | title=Encyclopedia of Toxicology | edition=2nd | volume=3 | publisher=Elsevier | year=2005 | pages=377–379}}</ref> ''n''-Hexane is sometimes used as a [[Denaturation (food)|denaturant]] for alcohol, and as a cleaning agent in the [[textile]], [[furniture]], and leather industries. It is slowly being replaced with other solvents.<ref name="tox">{{cite book | author=Clough, Stephen R | author2=Mulholland, Leyna | contribution=Hexane | title=Encyclopedia of Toxicology | volume=2 | edition=2nd | year=2005 | publisher=Elsevier | pages=522–525}}</ref>


Like gasoline, hexane is highly volatile and is an explosion risk. The 1981 [[Louisville sewer explosions]], which destroyed over {{cvt|13|mi|km}} of sewer lines and streets in Kentucky, were caused by ignition of hexane vapors which had been illegally discharged from a [[soybean]] processing plant owned by [[Ralston-Purina]]. Hexane was attributed as the cause of an explosion that occurred in the [[National University of Río Cuarto]], Argentina on 5 December 2007, due to a hexane spill near a heat-producing machine that exploded, producing a fire that killed one student and injured 24 more.
Like gasoline, hexane is highly volatile and is an explosion risk.


===Incidents===
===Incidents===
[[Occupational safety and health|Occupational]] hexane poisoning has occurred with Japanese sandal workers, Italian shoe workers,<ref>{{Cite journal| pmid = 6249607| year = 1980| last1 = Rizzuto| first1 = N| title = N-hexane polyneuropathy. An occupational disease of shoemakers| journal = European Neurology| volume = 19| issue = 5| pages = 308–15| last2 = De Grandis| first2 = D| last3 = Di Trapani| first3 = G| last4 = Pasinato| first4 = E| doi = 10.1159/000115166}}</ref> Taiwan press proofing workers, and others.<ref>{{citation | title=n-Hexane | series=[[Environmental Health Criteria]] | issue=122 | publisher=World Health Organization | year=1991 | url=http://www.inchem.org/documents/ehc/ehc/ehc122.htm | url-status=live | archive-url=https://web.archive.org/web/20140319105541/http://www.inchem.org/documents/ehc/ehc/ehc122.htm | archive-date=19 March 2014}}</ref> Analysis of Taiwanese workers has shown occupational exposure to substances including ''n''-hexane.<ref>{{Cite journal | doi = 10.5491/SHAW.2012.3.4.257| pmid = 23251841|pmc=3521924| title = Occupational Neurotoxic Diseases in Taiwan| journal = Safety and Health at Work| volume = 3| issue = 4| pages = 257–67| year = 2012| last1 = Liu | first1 = C. H. | last2 = Huang | first2 = C. Y. | last3 = Huang | first3 = C. C. }}</ref> In 2010–2011, Chinese workers manufacturing iPhones were reported to have suffered hexane poisoning.<ref>{{cite web |url=http://www.abc.net.au/news/stories/2010/10/26/3048024.htm |title=Workers poisoned while making iPhones – ABC News (Australian Broadcasting Corporation) |publisher=Australian Broadcasting Corporation|date=2010-10-26 |access-date=2015-03-17 |url-status=dead |archive-url=https://web.archive.org/web/20110408171509/http://www.abc.net.au/news/stories/2010/10/26/3048024.htm |archive-date=8 April 2011}}</ref><ref>{{cite news|url=https://www.nytimes.com/2011/02/23/technology/23apple.html?pagewanted=all|title=Workers Sickened at Apple Supplier in China|newspaper=The New York Times|date=22 February 2011|author=David Barboza|access-date=2015-03-17|url-status=live|archive-url=https://web.archive.org/web/20150407173034/http://www.nytimes.com/2011/02/23/technology/23apple.html?pagewanted=all|archive-date=7 April 2015}}</ref>
The 1981 [[Louisville sewer explosions]], which destroyed over {{cvt|13|mi|km}} of sewer lines and streets in the Kentucky city, were caused by ignition of hexane vapors which had been illegally discharged from a [[soybean]] processing plant owned by [[Ralston-Purina]].
 
Hexane was attributed as the cause of an explosion that occurred in the [[National University of Río Cuarto]], Argentina on 5 December 2007, due to a hexane spill near a heat-producing machine that exploded, producing a fire that killed one student and injured 24 more.
 
[[Occupational safety and health|Occupational]] hexane poisoning has occurred with Japanese sandal workers, Italian shoe workers,<ref>{{Cite journal| pmid = 6249607| year = 1980| last1 = Rizzuto| first1 = N| title = N-hexane polyneuropathy. An occupational disease of shoemakers| journal = European Neurology| volume = 19| issue = 5| pages = 308–15| last2 = De Grandis| first2 = D| last3 = Di Trapani| first3 = G| last4 = Pasinato| first4 = E| doi = 10.1159/000115166}}</ref> Taiwan press proofing workers, and others.<ref>{{citation | title=n-Hexane | series=[[Environmental Health Criteria]] | issue=122 | publisher=World Health Organization | year=1991 | url=http://www.inchem.org/documents/ehc/ehc/ehc122.htm | url-status=live | archive-url=https://web.archive.org/web/20140319105541/http://www.inchem.org/documents/ehc/ehc/ehc122.htm | archive-date=19 March 2014}}</ref> Analysis of [[Taiwan]]ese workers has shown occupational exposure to substances including ''n''-hexane.<ref>{{Cite journal | doi = 10.5491/SHAW.2012.3.4.257| pmid = 23251841|pmc=3521924| title = Occupational Neurotoxic Diseases in Taiwan| journal = Safety and Health at Work| volume = 3| issue = 4| pages = 257–67| year = 2012| last1 = Liu | first1 = C. H. | last2 = Huang | first2 = C. Y. | last3 = Huang | first3 = C. C. }}</ref> In 2010–2011, Chinese workers manufacturing [[iPhone]]s were reported to have suffered hexane poisoning.<ref>{{cite web |url=http://www.abc.net.au/news/stories/2010/10/26/3048024.htm |title=Workers poisoned while making iPhones – ABC News (Australian Broadcasting Corporation) |publisher=Australian Broadcasting Corporation|date=2010-10-26 |access-date=2015-03-17 |url-status=dead |archive-url=https://web.archive.org/web/20110408171509/http://www.abc.net.au/news/stories/2010/10/26/3048024.htm |archive-date=8 April 2011}}</ref><ref>{{cite news|url=https://www.nytimes.com/2011/02/23/technology/23apple.html?pagewanted=all|title=Workers Sickened at Apple Supplier in China|newspaper=The New York Times|date=22 February 2011|author=David Barboza|access-date=2015-03-17|url-status=live|archive-url=https://web.archive.org/web/20150407173034/http://www.nytimes.com/2011/02/23/technology/23apple.html?pagewanted=all|archive-date=7 April 2015}}</ref>


===Biotransformation===
===Biotransformation===
''n''-Hexane is biotransformed to [[2-hexanol]] and further to [[2,5-hexanediol]] in the body.  The conversion is catalyzed by the enzyme [[cytochrome P450]] utilizing oxygen from air. 2,5-Hexanediol may be further oxidized to [[2,5-hexanedione]], which is [[neurotoxicity|neurotoxic]] and produces a [[polyneuropathy]].<ref name="tox"/> In view of this behavior, replacement of ''n''-hexane as a solvent has been discussed.  [[heptane|''n''-Heptane]] is a possible alternative.<ref>{{cite book | date = 1996 | volume = 387 | pages = 411–427 |vauthors=Filser JG, Csanády GA, Dietz W, Kessler W, Kreuzer PE, Richter M, Störmer A | title = Biological Reactive Intermediates V | chapter = Comparative Estimation of the Neurotoxic Risks of N-Hexane and N-Heptane in Rats and Humans Based on the Formation of the Metabolites 2,5-Hexanedione and 2,5-Heptanedione | pmid=8794236| doi = 10.1007/978-1-4757-9480-9_50 | series = Advances in Experimental Medicine and Biology | isbn = 978-1-4757-9482-3 }}</ref>
''n''-Hexane is biotransformed to [[2-hexanol]] and further to [[2,5-hexanediol]] in the body.  The conversion is catalyzed by the [[enzyme]] [[cytochrome P450]] utilizing oxygen from air. 2,5-Hexanediol may be further oxidized to [[2,5-hexanedione]], which is [[neurotoxicity|neurotoxic]] and produces a [[polyneuropathy]].<ref name="tox"/> In view of this behavior, replacement of ''n''-hexane as a solvent has been discussed.  [[heptane|''n''-Heptane]] is a possible alternative.<ref>{{cite book | date = 1996 | volume = 387 | pages = 411–427 |vauthors=Filser JG, Csanády GA, Dietz W, Kessler W, Kreuzer PE, Richter M, Störmer A | title = Biological Reactive Intermediates V | chapter = Comparative Estimation of the Neurotoxic Risks of N-Hexane and N-Heptane in Rats and Humans Based on the Formation of the Metabolites 2,5-Hexanedione and 2,5-Heptanedione | pmid=8794236| doi = 10.1007/978-1-4757-9480-9_50 | series = Advances in Experimental Medicine and Biology | isbn = 978-1-4757-9482-3 }}</ref>


==See also==
==See also==
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*[https://web.archive.org/web/20071013111049/http://nsc.org/EHC/jrn/tips/tip167.htm Warning from National Safety Council "COMMON CHEMICAL AFFECTS AUTO MECHANICS"]
*[https://web.archive.org/web/20071013111049/http://nsc.org/EHC/jrn/tips/tip167.htm Warning from National Safety Council "COMMON CHEMICAL AFFECTS AUTO MECHANICS"]
*Australian [https://web.archive.org/web/20090912082512/http://www.npi.gov.au/database/substance-info/profiles/47.html National Pollutant Inventory (NPI)] page
*Australian [https://web.archive.org/web/20090912082512/http://www.npi.gov.au/database/substance-info/profiles/47.html National Pollutant Inventory (NPI)] page
*[http://www.epa.gov/ttn/atw/vegoil/fr12ap01.pdf "EPA does not consider n-hexane classifiable as a human carcinogen."] Federal Register / Vol. 66, No. 71 / Thursday, 12 April 2001 / Rules and Regulations
*[https://web.archive.org/web/20040906084858/http://www.epa.gov/ttn/atw/vegoil/fr12ap01.pdf "EPA does not consider n-hexane classifiable as a human carcinogen."] Federal Register / Vol. 66, No. 71 / Thursday, 12 April 2001 / Rules and Regulations


{{Alkanes}}
{{Alkanes}}

Latest revision as of 06:48, 10 November 2025

Template:Short description Script error: No such module "Distinguish". Template:Use dmy dates

Template:Chembox Hexane (Template:IPAc-en) or n-hexane is an organic compound, a straight-chain alkane with six carbon atoms and the molecular formula C6H14.[1]

Hexane is a colorless liquid, odorless when pure, and with a boiling point of approximately Template:Convert. It is widely used as a cheap, relatively safe, largely unreactive, and easily evaporated non-polar solvent, and modern gasoline blends contain about 3% hexane.[2]

The term hexanes refers to a mixture, composed largely (>60%) of n-hexane, with varying amounts of the isomeric compounds 2-methylpentane and 3-methylpentane, and possibly, smaller amounts of nonisomeric C5, C6, and C7 (cyclo)alkanes. These "hexanes" mixtures are cheaper than pure hexane and are often used in large-scale operations not requiring a single isomer (e.g., as cleaning solvent or for chromatography).

Isomers

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Common name IUPAC name Text formula Skeletal formula
Normal hexane,
n-Hexane 		Hexane CH3(CH2)4CH3 File:Hexane-2D-Skeletal.svg
Isohexane 2-Methylpentane (CH3)2CH(CH2)2CH3 File:2-metilpentāns.svg
3-Methylpentane CH3CH2CH(CH3)CH2CH3 File:3-metilpentāns.svg
2,3-Dimethylbutane (CH3)2CHCH(CH3)2 File:2,3-dimetilbutāns.svg
Neohexane 2,2-Dimethylbutane (CH3)3CCH2CH3 File:2,2-dimetilbutāns.svg

Uses

In industry, hexanes are used in the formulation of glues for shoes, leather products, and roofing. They are also used to extract cooking oils (such as canola oil or soybean oil) from seeds, for cleansing and degreasing a variety of items, and in textile manufacturing.

A typical laboratory use of hexanes is to extract oil and grease contaminants from water and soil for analysis.[3] Since hexane cannot be easily deprotonated, it is used in the laboratory for reactions that involve very strong bases, such as the preparation of organolithiums. For example, butyllithiums are typically supplied as a hexane solution.[4]

Hexanes are commonly used in chromatography as a non-polar solvent. Higher alkanes present as impurities in hexanes have similar retention times as the solvent, meaning that fractions containing hexane will also contain these impurities. In preparative chromatography, concentration of a large volume of hexanes can result in a sample that is appreciably contaminated by alkanes. This may result in a solid compound being obtained as an oil and the alkanes may interfere with analysis.

As an internal combustion engine fuel, n-hexane has low research and motor octane numbers of 25 and 26 respectively.[5] In 1983 its share in Japanese gasoline varied around 6%,[6] in 1992 it was present in American gas between 1 and 3%,[7] and in Swedish automobile fuel in the same year the share was consistently under 2%, often below 1%.[8] By 2011 its share in US gas stood between 1 and 7%.[9]

Production

Hexane is chiefly obtained by refining crude oil. The exact composition of the fraction depends largely on the source of the oil (crude or reformed) and the constraints of the refining.[10] The industrial product (usually around 50% by weight of the straight-chain isomer) is the fraction boiling at Template:Convert.

Physical properties

All alkanes are colorless.[11][12] The boiling points of the various hexanes are somewhat similar and, as for other alkanes, are generally lower for the more branched forms. The melting points are quite different and the trend is not apparent.[13]

Isomer M.P. (°C) M.P. (°F) B.P. (°C) B.P. (°F)
n-hexane Template:Convert Template:Convert
3-methylpentane Template:Convert Template:Convert
2-methylpentane (isohexane) Template:Convert Template:Convert
2,3-dimethylbutane Template:Convert Template:Convert
2,2-dimethylbutane (neohexane) Template:Convert Template:Convert

Hexane has considerable vapor pressure at room temperature:

Temperature (°C) Temperature (°F) Vapor pressure (mmHg) Vapor pressure (kPa)
Template:Convert Template:Convert
Template:Convert Template:Convert
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Reactivity

Like most alkanes, hexanes characteristically exhibit low reactivity and are suitable solvents for reactive compounds. Commercial samples of n-hexane however often contains methylcyclopentane, which features tertiary C-H bonds, which are incompatible with some radical reactions.[14]

Safety

Inhalation of n-hexane at 5000 ppm for 10 minutes produces marked vertigo; 2500-1000 ppm for 12 hours produces drowsiness, fatigue, loss of appetite, and paresthesia in the distal extremities; 2500–5000 ppm produces muscle weakness, cold pulsation in the extremities, blurred vision, headache, and anorexia.[15] Chronic occupational exposure to elevated levels of n-hexane has been demonstrated to be associated with peripheral neuropathy in auto mechanics in the US, and neurotoxicity in workers in printing presses, and shoe and furniture factories in Asia, Europe, and North America.[16]

The US National Institute for Occupational Safety and Health (NIOSH) has set a recommended exposure limit (REL) for hexane isomers (not n-hexane) of 100 ppm (Template:Convert) over an 8-hour workday.[17] However, for n-hexane, the current NIOSH REL is 50 ppm (Template:Convert) over an 8-hour workday.[18] This limit was proposed as a permissible exposure limit (PEL) by the Occupational Safety and Health Administration in 1989; however, this PEL was overruled in US courts in 1992.[19] The current n-hexane PEL in the US is 500 ppm (Template:Convert).[18]

Hexane and other volatile hydrocarbons (petroleum ether) present an aspiration risk.[20] n-Hexane is sometimes used as a denaturant for alcohol, and as a cleaning agent in the textile, furniture, and leather industries. It is slowly being replaced with other solvents.[21]

Like gasoline, hexane is highly volatile and is an explosion risk.

Incidents

The 1981 Louisville sewer explosions, which destroyed over Template:Cvt of sewer lines and streets in the Kentucky city, were caused by ignition of hexane vapors which had been illegally discharged from a soybean processing plant owned by Ralston-Purina.

Hexane was attributed as the cause of an explosion that occurred in the National University of Río Cuarto, Argentina on 5 December 2007, due to a hexane spill near a heat-producing machine that exploded, producing a fire that killed one student and injured 24 more.

Occupational hexane poisoning has occurred with Japanese sandal workers, Italian shoe workers,[22] Taiwan press proofing workers, and others.[23] Analysis of Taiwanese workers has shown occupational exposure to substances including n-hexane.[24] In 2010–2011, Chinese workers manufacturing iPhones were reported to have suffered hexane poisoning.[25][26]

Biotransformation

n-Hexane is biotransformed to 2-hexanol and further to 2,5-hexanediol in the body. The conversion is catalyzed by the enzyme cytochrome P450 utilizing oxygen from air. 2,5-Hexanediol may be further oxidized to 2,5-hexanedione, which is neurotoxic and produces a polyneuropathy.[21] In view of this behavior, replacement of n-hexane as a solvent has been discussed. n-Heptane is a possible alternative.[27]

See also

References

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External links

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