Chemistry:Cyclohexenone

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Cyclohexenone
Skeletal formula of cyclohexenone
Ball-and-stick model of the cyclohexenone molecule
Names
Preferred IUPAC name
Cyclohex-2-en-1-one
Other names
1-Cyclohex-2-enone
Identifiers
3D model (JSmol)
3DMet
1280477
ChEBI
ChemSpider
EC Number
  • 213-223-5
2792
KEGG
UNII
Properties
C6H8O
Molar mass 96.129 g·mol−1
Appearance Clear colorless liquid
Density 0.993 g/mL [1]
Melting point −53 °C (−63 °F; 220 K)[1]
Boiling point 171 to 173 °C (340 to 343 °F; 444 to 446 K)[1]
41.3 g/L (25 °C)
Hazards
GHS pictograms GHS02: FlammableGHS06: ToxicGHS07: Harmful
GHS Signal word Danger
H226, H301, H310, H319, H330, H331
P210, P233, P240, P241, P242, P243, P260, P261, P262, P264, P270, P271, P280, P284, P301+310, P302+350, P303+361+353, P304+340, P305+351+338, P310, P311, P320, P321, P322, P330
NFPA 704 (fire diamond)
Flammability code 3: Liquids and solids that can be ignited under almost all ambient temperature conditions. Flash point between 23 and 38 °C (73 and 100 °F). E.g. gasolineHealth code 1: Exposure would cause irritation but only minor residual injury. E.g. turpentineReactivity code 0: Normally stable, even under fire exposure conditions, and is not reactive with water. E.g. liquid nitrogenSpecial hazards (white): no codeNFPA 704 four-colored diamond
3
1
0
Lethal dose or concentration (LD, LC):
220 mg kg−1 (rat, oral)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references
Tracking categories (test):

Cyclohexenone is an organic compound which is a versatile intermediate used in the synthesis of a variety of chemical products such as pharmaceuticals and fragrances.[2] It is colorless liquid, but commercial samples are often yellow.

Industrially, cyclohexenone is prepared from phenol by Birch reduction.[3]

Cyclohexenone is a ketone, or more precisely an enone. Common reactions include nucleophilic conjugate addition with organocopper reagents, Michael reactions and Robinson annulations.[4][5]

Synthesis

Several routes exist for the production of cyclohexenone. For the laboratory scale, it can be produced from resorcinol via 1,3-cyclohexanedione.[6]

Synthesis of 2-cyclohexen-1-on

Cyclohexenone is obtained by Birch reduction of anisole followed by acid hydrolysis.

Synthesis of 2-cyclohexen-1-on by Birch reduction

It can be obtained from cyclohexanone by α-bromination followed by treatment with base. Hydrolysis of 3-chloro cyclohexene followed by oxidation of the cyclohexenol is yet another route.

Cyclohexenone is produced industrially by catalytic oxidation of cyclohexene, for example with hydrogen peroxide and vanadium catalysts. Several patents describe diverse oxidizing agents and catalysts.

Reactions

Cyclohexenone is a widely used building block in organic synthesis chemistry, as it offers many different ways to extend molecular frameworks.

As an enone, cyclohexenone is easily adapted to Michael addition with nucleophiles (such as enolates or silyl enol ethers) or, it could be employed by a Diels-Alder reaction with electron-rich dienes. Furthermore, this compound reacts with organocopper compounds from 1,4-addition (Michael addition), or with Grignard reagents 1,2-addition, i.e., with attack of the nucleophile at the carbonyl carbon atom. Cyclohexenone is also used in multi-step synthesis in the construction of polycyclic natural products. It is prochiral.

With strong bases, the positions 4 and 6 (the two CH2-groups of the carbonyl group and the C-C double bond adjacent) are deprotonated.

Cyclohexenone is an in-vitro catalyst for a relatively mild decarboxylation of alpha amino acids.[7] [8]

Related compounds

References

  1. 1.0 1.1 1.2 Cyclohexenone at Sigma-Aldrich
  2. Podraze, K.F. Org. Prep. Proced. Int., 1991, 23, p. 217.
  3. Organic Building Blocks of the Chemical Industry, Harry H. Szmant, ISBN:978-0-471-85545-3
  4. Michael G. Organ and Paul Anderson (1996). "Carbonyl and Conjugate Additions to Cyclohexenone: Experiments Illustrating Reagent Selectivity". Journal of Chemical Education 73 (12): 1193. doi:10.1021/ed073p1193. 
  5. Tetrahedron Lett. 34, 3881, (1993)
  6. R. B. Thompson (1947). "Dihydroresorcinol". Organic Syntheses 27: 21. doi:10.15227/orgsyn.027.0021. 
  7. Researchers in Japan were attempting to use t-butyl peroxide as a catalyst for decarboxylation using a solvent choice of cyclohexanol. Curiously they found that when they used lower-purity (e.g. technical grade, 98%) cyclohexanol, the reaction proceeded as much as 4 times faster compared to when they used relatively pure cyclohexanol (>99.3%). They found that cyclohexanol contained cyclohexenone as a natural impurity, which was three times more abundant in the technical grade cyclohexenone compared to the more purified cyclohexanol (~0.3% versus ~0.1%). Further research showed that 1% cyclohexenone in cyclohexanol will decarboxylate most alpha-amino acids, including non-standard ones, with a yield of 80-95% in a matter of several hours. The exceptions are certain amino acids like histidine, which was reported to take over 26 hours, and poly-amino acids, which fail to decarboxylate using 2-cyclohexenone and another route must be found instead.Hashimoto, M; Eda, Y; Yasutomo, O; Toshiaki, I; Aoki, S (1986). "A novel decarboxylation of .ALPHA.-amino acids. A facile method of decarboxylation by the use of 2-cyclohexen-1-one as a catalyst.". Chemistry Letters 15 (6): 893–896. doi:10.1246/cl.1986.893. https://www.jstage.jst.go.jp/article/cl1972/15/6/15_6_893/_article. Retrieved 4 January 2016. 
  8. Laval, G; Golding, B (2003). "One-pot Sequence for the Decarboxylation of α-Amino Acids". Synlett (4): 542–546. doi:10.1055/s-2003-37512. https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-2003-37512. Retrieved 4 January 2016. 
  9. A. G. Ross, X. Li, S. J. Danishefsky (2012). "Preparation of Cyclobutenone". Organic Syntheses 89: 491. doi:10.15227/orgsyn.089.0491. 
  10. Y. Ito, S. Fujii, M. Nakatuska, F. Kawamoto,T. Saegusa (1979). "One-Carbon Ring Expansion of Cycloalkanones to Conjugated Cycloalkenones: 2-Cyclohepten-1-One". Organic Syntheses 59: 113. doi:10.15227/orgsyn.059.0113.