Author Topic: Wilkinson Catalyst Reductions  (Read 1739 times)

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Chicken

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Wilkinson Catalyst Reductions
« on: September 25, 2002, 01:06:00 PM »
Could a Wilkinson's catalyst Tris(triphenylphosphin)rhodium(I)chloride: ClRh(PPh3)3, be utilized in the presence of ammonium formate and a microwave used to reduce the hydroxy group away from a benzylalcohol?  Could this be carried out in a GAA solvent?  I have been doing some reading on this and it seems like an excellent route for CTH in the microwave, much more suited to the proceedure then classic catalysts.  The ammonium formate addition allows the reaction to occur without the pressure associated with most hydrogen catalyst reactions.  It seems that Alumina or polymer supported formate would be adventageous for this operation also.

As I read more I think skip the microwave and maybe just add heat.  Maybe a little shaking, a 1-2atm H2 gas.  Using the WC maybe it is more possible to skip the chloro intermediated, because of the WC's selective nature.  Seem their is literature supporting this for a ketone reduction.

Any ideas?

http://fachschaft.cup.uni-muenchen.de/~schleifi/reaktion/reaction/wilkikat.html

(http://fachschaft.cup.uni-muenchen.de/~schleifi/reaktion/reaction/wilkikat.html)
Wilkinson Catalyst Description

Rhodium

  • Guest
Deoxygenation of benzyl alcohols
« Reply #1 on: September 25, 2002, 02:43:00 PM »
I think that you might need more vigorous rxn conditions for deoxygenation of benzyl alcohols to hydrocarbons. Do you have any references for deoxygenations using Wilkinson?

2-propanol is also a good hydrogen donor for CTH, btw.

Use this search engine:

http://www.scirus.com/


Chicken

  • Guest
Ref
« Reply #2 on: September 25, 2002, 03:15:00 PM »
"New Rhodium-Catalyzed Allylic Substitution Reactions: Mechanistic Insight and Synthetic Applications"
P. Andrew Evans (Indiana University).

Professor Evans demonstrated that Wilkinson’s catalyst, [Rh(PPh3)3Cl], may be modified in situ to furnish a catalytically active species that facilitates the regioselective allylic substitution of acyclic unsymmetrical chiral non-racemic allylic alcohol derivatives with retention of absolute configuration. In general, allylic carbonate 8 reacts with various nucleophiles to afford the secondary allyl derivatives 9 in high yield and with retention of absolute configuration, along with a small amount of olefin 10 (Scheme 3). A mechanism in which the reaction proceeds with overall retention of absolute configuration via the intermediacy of an enyl (s + p) organorhodium intermediate was proposed.

http://www.albmolecular.com/features/tekreps/vol06/no26/


For the rest.  . .

Rhodium

  • Guest
That is not a benzylic alcohol dehydrogenation.
« Reply #3 on: September 25, 2002, 04:24:00 PM »
That is not a benzylic alcohol dehydrogenation.

Chicken

  • Guest
Here is something similar using a Ni catalyst
« Reply #4 on: September 26, 2002, 03:11:00 PM »
Gross, B.H. / Mebane, R.C. / Armstrong, D.L., Applied Catalysis A: General, Oct 2001
Raney nickel in refluxing 2-propanol is an effective catalytic system for cleaving CO bonds in aromatic alcohols by transfer hydrogenolysis. Deoxygenation of alcohols substituted at the á-, â-, ã-, ä-, and -positions was...

Edit: This has been posted in

Post 393077

(Rhodium: "(pseudo)Ephedrine to Meth w/ Raney-Nickel", Stimulants)

Rhodium

  • Guest
That's exactly what you want.
« Reply #5 on: September 26, 2002, 05:15:00 PM »
That's exactly what you want.

Chicken

  • Guest
Raney cobalt
« Reply #6 on: September 26, 2002, 05:49:00 PM »
Seems after further examination that Raney cobalt in refluxing 2-propanol would be the ideal catalyst for use for reduction of epedrine hcl diectly without intermediates to methamphetamine.  Does anyone have experience with Raney Cobalt?  Is it possibe to make Raney Cobalt or is it best purchased?  Raney Ni seems to come in second place, but is less selective, and thus may require the chloro intermediate to be produced for the reaction to work with decent yeilds.  These cobalt and nickle catalysts are not watched correct?  Additionally these sponge catalysts do not require a prereduction like Pd catalysts do.  This seems ideal.