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Propylene oxide
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===Oxidation of propylene=== The other general route to propylene oxide involves oxidation of propylene with an [[Organic peroxides|organic peroxide]]. The reaction follows this stoichiometry: :CH<sub>3</sub>CH=CH<sub>2</sub> + RO<sub>2</sub>H β CH<sub>3</sub>CHCH<sub>2</sub>O + ROH The process is practiced with four [[hydroperoxide]]s:<ref name= Nijhuis/> *In the [[Halcon process]], [[tert-Butyl hydroperoxide|''t''-Butyl hydroperoxide]] derived from oxygenation of [[isobutane]], which affords [[Tert-Butanol|''t''-butanol]]. This coproduct can be dehydrated to isobutene, converted to [[MTBE]], an additive for [[gasoline]]. * [[Ethylbenzene hydroperoxide]], derived from oxygenation of [[ethylbenzene]], which affords 1-phenylethanol. This coproduct can be dehydrated to give [[styrene]], a useful monomer. *[[Cumene hydroperoxide]] derived from oxygenation of [[cumene]] (isopropylbenzene), which affords [[cumyl alcohol]]. Via [[dehydration reaction|dehydration]] and [[hydrogenation]] this coproduct can be recycled back to cumene. This technology was commercialized by Sumitomo Chemical.<ref>{{cite web|url=http://nexant.ecnext.com/coms2/gi_0255-227/Developments-in-Propylene-Oxide-Technology.html|title=Summary of Sumitomo process from Nexant Reports|access-date=2007-09-18|url-status=dead|archive-url=https://archive.today/20060117092104/http://nexant.ecnext.com/coms2/gi_0255-227/Developments-in-Propylene-Oxide-Technology.html|archive-date=2006-01-17}}</ref> *[[Hydrogen peroxide]] is the oxidant in the hydrogen peroxide to propylene oxide (HPPO) process, catalyzed by a titanium-doped [[silicalite]]: *:C<sub>3</sub>H<sub>6</sub> + H<sub>2</sub>O<sub>2</sub> β C<sub>3</sub>H<sub>6</sub>O + H<sub>2</sub>O In principle, this process produces only [[water]] as a [[By-product|side product]]. In practice, some ring-opened derivatives of PO are generated.<ref>{{cite journal | vauthors = Russo V, Tesser R, Santacesaria E, Di Serio M |title=Chemical and Technical Aspects of Propene Oxide Production via Hydrogen Peroxide (HPPO Process)|journal=Industrial & Engineering Chemistry Research |year=2013|volume=52|issue=3|pages=1168β1178|doi=10.1021/ie3023862}}</ref> Propylene oxide is chiral building block that is commercially available in either enantiomeric form ((''R'')-(+) and (''S'')-(β)). The separated enantiomers can be obtained through a Co(III)-salen-catalyzed hydrolytic [[kinetic resolution]] of the racemic material.<ref>{{Cite journal |last1=Schaus |first1=Scott E. |last2=Brandes |first2=Bridget D. |last3=Larrow |first3=Jay F. |last4=Tokunaga |first4=Makoto |last5=Hansen |first5=Karl B. |last6=Gould |first6=Alexandra E. |last7=Furrow |first7=Michael E. |last8=Jacobsen |first8=Eric N. |date=2002-02-01 |title=Highly Selective Hydrolytic Kinetic Resolution of Terminal Epoxides Catalyzed by Chiral (salen)Co III Complexes. Practical Synthesis of Enantioenriched Terminal Epoxides and 1,2-Diols |url=https://pubs.acs.org/doi/10.1021/ja016737l |journal=Journal of the American Chemical Society |language=en |volume=124 |issue=7 |pages=1307β1315 |doi=10.1021/ja016737l |pmid=11841300 |bibcode=2002JAChS.124.1307S |issn=0002-7863|url-access=subscription }}</ref>
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