(Hive Bee)
04-29-03 08:39
No 430156
      Cyclodextrin-Palladium Chloride. New Catalytic....
(Rated as: excellent)

This is one of the "wanted references" Post 429814 (not existing) - since the scanner picked today to be unruly, I've typed this one up.

Chemistry Letters, pp 2083-2084, 1986

Cyclodextrin-Palladium Chloride. New Catalytic System for Selective Oxidation of Olefins to Ketones

Akira HARADA, Ying HU, and Shigetoshi TAKAHASHI*
The Institute of Scientific nad Industrial Research, Osaka University, Ibaraki, Osaka 567

Terminal olefins are oxidised to ketone in high yields under mild conditions using palladium chloride and cyclodextrins as catalysts in two-phase systems; cyclodextrins show substrate selectivity.

   Cyclodextrins (CDs) form inclusion compounds with various organic molecules1 and they have been extensively studied as a model of enzymes2. However, in most of the reactions reported CDs are not catalysts and so their applications to organic syntheses have been limited. Previously we reported that CDs form inclusion compounds with some organometallic complexes3. Now we found a system in which CDs function as catalysts and show marked substrate selectivity. Here we report the first example of the use of CDs as inclusion catalysts for effecting reactions catalysed by transition metal complexes in aqueous-organic two-phase systems.
   We have examined the behaviour of CDs in the oxidation of terminal olefins to the corresponding methyl ketones. Although ethylene can be oxidized to acetaldehyde by PdCl2 in an aqueous system (Wacker oxidation), higher alpha-olefins are oxidized to methyl ketones only very slowly or not oxidized in entirely aqueous solutions of PdCl2.

                 PdCl2-CuCl2, CD
R-CH=CH2  +  O2 --------------------->  RCOCH3
                 H2O, 1 atm.

Now we have found that on addition of CD into this system, terminal olefins are smoothly oxidized under mild conditions to give the corresponding methyl ketones in high yields and that cyclodextrins show substrate selectivity.

   In a typical experiment, dec-1-ene (25 mmol) was added to an aqueous solution of alpha-CD (1.0 mmol), PdCl2 (1.0 mmol), and CuCl2(10 mmol) at 75 C. When oxygen was bubbled though an aqueous solution and stirred vigoursly, decan-2-one was obtained in 76% yield. No oxidation products were obtained without alpha-CD.
   The results on the oxidation of some long-chain olefins by the present catalytic system are summarized in Table 1 and illustrated in Fig. 1, which shows that the yield of ketone depends strongly on the substrate employed and high yields are obtained with the substrate having C8-C10 structures. The yield suddenly drops when the carbon number of the substrate exceed ten, indicating that the PdCl2 system shows high substrate selectivity. Essentially no reations of internal olefins were observed under the present conditions.

Table 1. Oxidation of olefins to methyl ketones

Olefin             Temp    Time    Yield
                    C      h        %
Oct-1-ene           65      10      76
Non-1-ene           60      8       62
Dec-1-ene           75      10      76
Dodec-1-ene         80      10      13
Tetradec-1-ene      85      10      9
Oct-2-ene           60      8       2

Fig. 1 Effects of carbon number on the yields of ketones. Open system, 70 C, 8 h. Closed system, 60 C, 8 h, 1 atm.

Carbon Number      %Yield (closed system)    %Yield (open system)
6                      10
7                      35
8                      40                       56
9                      43                       60
10                     23                       55
12                                              15
14                                              10

It should be noted that alpha-CD is effective as catalyst and it can be recovered simply by cooling the solution and can be reused. Beta-CD is also effective as the catalyst and shows similar selectivity. The metal catalyst can be reused without any reduction in yields. Oxygen can be replaced by air.
   Recently, Alper et al. reported that the reaction was carried in two-phase systems with quaternary ammonium salts as phase transfer catalysts and CCl4 as solvent4. In our system isolation of the products from catalyst or solvent is quite easy because no organic solvents are required, and the CD and PdCl2 catalysts are soluble only in an aqueous phase.
   One possible pathway of the reaction may be the initial formation of CD complexes with substrates. CD extracts substrates from the organic phase allowing them to form complexes with PdCl2. Then the substrates undergo oxidation to yield ketones. Unlike with the phase transfer catalysts generally used, such as quarternary ammonium salts, the reaction proceeds in the aqueous phase in our system.

The results show that this new system consisting of cyclodextrin and PdCl2 is effective and selective catalysts for oxidation of long-chain alpha-olefins to ketones in a two-phase system and that separation of the products from catalysts or solvents is quite easy5,6

[1]. M.L. Bender and M. Komiyama, "Cyclodextrin Chemistry," Springer-Verlag, Berlin, (1978)
[2]. I. Tabusi, Acc. Chem. Res., 1982, 15, 66
[3]. A Harada and S. Takahashi, J.Chem.Soc. Chem. Commun. 1984, 645;  A. Harada, K Saeki, and S. Takahashi, Chem. Lett., 1985, 1157.
[4]. K. Januszkiewicz and H. Alper, Tetrahedron Lett. 1983, 5159.
[5]. After completion of this article, the similar results have been reported by Alper et al.: H.A. Zahalka, K. Januszkiewicz, and H. Alper, J. Mol. Cat., 35, 249 (1986).
[6]. A. Harada, Y. Hu, and S. Takahashi, Japanese Patent Application Number 60-264,490 [nov. 1985].

Got democracy?
04-29-03 19:47
No 430229
      Did you see Rhodiums post on the improved wacker?     

Post 417436 (Rhodium: "Wacker with 80% yield in 10min  at RT with less Pd", Novel Discourse)
04-29-03 19:54
No 430232
      Did anyone try acidifying the O2 wacker     

Did any one try acidifying the O2 to like 0.3M with dilute mineral acid?

Does anyone know a way to scavange the Pd from the wacker?
I know SigmaAldrich has a Pd scavanger, but have not been able to get more info.

(Distinctive Doe)
05-05-03 03:17
No 431409
      Most likely won't work well on safrole because     

Most likely won't work well on safrole because cyclodextrin probably can't effectively carry it into the aqueaous phase. 

Who knows tho, its worth a shot.
02-06-04 05:04
No 486823
      i think you are wrong.     

i think you are wrong.
Roid users have use b-cyclodextrin to solublize sterols into aqueous systems for years.  safrole is much smaller than say androstendione so i don't really see why b-CD wouldn't carry it into the aq. phase.