Topic: Cyclohexene (Read 6870 times)

Darkstar · « **on:** September 18, 2004, 06:10:42 AM »

Cyclohexene from cyclohexane. Sounds simple, but it’s harder than it looks. How would you actually do it in the laboratory?

Demotivator · « **Reply #1 on:** September 18, 2004, 12:26:06 PM »

Chlorinate the cyclohexane, distill the monosubstituted - Then dehydrohalogenate wiyh KOH.
According to an article,
Chlorination can be achieved with CCl4 catalyzed with PdBr2(PPh3)2 with acetonitrile (to enhance catalyst solubility) and potassium carbonate.
www.kcn.ru/tat_ru/universitet/persons/annot/7411/2.pdf

Darkstar · « **Reply #2 on:** September 19, 2004, 01:37:59 PM »

Thanks. I just wonder if more simple radical agents like (PhCOO)2 would work just as well... This one seems far too complex for a college test.

Demotivator · « **Reply #3 on:** September 19, 2004, 06:19:31 PM »

The benzoyl peroxide initiator would work with Cl2 gas or
Sulfuryl Chloride: SO2Cl2 (safer to handle).
www.chemistry.mtu.edu/~kmsmith/ Organic/Manuals/2411/FreeRad/FreeRad04.pdf -

Also, Bromination with Br2 might be an alternative.

Darkstar · « **Reply #4 on:** September 20, 2004, 08:01:30 AM »

Thanks for your detailed answer. I wonder why a monosubstitution takes place here. I'd figure most radical processes would lead to a mixture of substituted compunds.

Darkstar · « **Reply #5 on:** September 20, 2004, 08:05:16 AM »

Oh, I think I'll answer this myself. Probably because we use cyclohexane in excess.

Topic: Cyclohexene (Read 6870 times)

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Cyclohexene

Demotivator

Re:Cyclohexene

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