2002
DOI: 10.1055/s-2002-25352
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Juliá-Colonna Asymmetric Epoxidation in a Continuously Operated Chemzyme Membrane Reactor

Abstract: Two novel soluble polymer-bound oligo-L-leucines 2 and 5, which can be retained by a membrane reactor system, have been prepared and used as catalysts for the continuously operated asymmetric epoxidation of chalcone. The optimized batch reaction conditions yield epoxychalcone in high enantioselectivities (up to 94%) and conversions (over 99%) after 15 minutes.Epoxides are widely used compounds in organic synthesis. 1 For this reason several approaches to effect enantioselective epoxidation have been made. 2 Am… Show more

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Cited by 49 publications
(30 citation statements)
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“…(27)] carried out at the industrial level in 99 % yield and 94 % ee in a continuously operated membrane reactor where catalyst recycling was made possible by a nanofiltration membrane. [11,69] In subsequent work, Kelly and Roberts prepared a new soluble catalysts 22a by attaching a polyleucine chain to MeOPEG 5000 NH 2 ( Figure 8). [70] This catalyst, the peptide fragment of which was shown by CD measurements to exist mostly in the a-helical structure (86 %), was found to promote the epoxidation of chalcone with the urea/hydrogen peroxide complex in 95 % conversion and 97 % ee (DBU, THF, room temperature, 3 h).…”
Section: Polyamino Acidsmentioning
confidence: 99%
See 1 more Smart Citation
“…(27)] carried out at the industrial level in 99 % yield and 94 % ee in a continuously operated membrane reactor where catalyst recycling was made possible by a nanofiltration membrane. [11,69] In subsequent work, Kelly and Roberts prepared a new soluble catalysts 22a by attaching a polyleucine chain to MeOPEG 5000 NH 2 ( Figure 8). [70] This catalyst, the peptide fragment of which was shown by CD measurements to exist mostly in the a-helical structure (86 %), was found to promote the epoxidation of chalcone with the urea/hydrogen peroxide complex in 95 % conversion and 97 % ee (DBU, THF, room temperature, 3 h).…”
Section: Polyamino Acidsmentioning
confidence: 99%
“…This is the case, for instance, of continuous flow methods, [95] when the immobilized catalyst permanently resides in the reactor where it transforms the entering starting materials into the exiting products. [69,79,96] The retention of the catalyst inside the reaction vessel can be achieved by different techinques ranging from ultrafiltration through an M W -selective membrane to immobilization on a silica gel column. It is important to note that, under continuous flow conditions, product separation from the catalyst, catalyst recovery, and catalyst recycling are achieved in a single operation.…”
Section: Why?mentioning
confidence: 99%
“…As a further demonstration of chiral pool inspired catalysts, proline-derived aminoalcohols (e.g., 445) promote asymmetric epoxidation of enones through non-covalent catalysis [494,495]. Oligopeptides also show promise as chiral auxiliaries [496] illustrated by the novel poly(ethylene glycol)-supported oligo(L-leucine) catalyst 447 used to carry out the Juli a-Colonna epoxidation of chalcone through a continuously operated chemzyme membrane reactor with urea-hydrogen peroxide as the terminal oxidant [497]. The chiral ytterbium complex formed from Yb(i-PrO) 3 and 6,6 0 -diphenyl-BINOL (450) catalyzed the epoxidation in 91% yield and 97% ee using cumene hydroperoxide as the oxygen source [498].…”
Section: Epoxidation Of Electron-deficient Alkenesmentioning
confidence: 99%
“…[11] Also the application of soluble polymer catalysts for a continuously operated asymmetric reaction was reported. [12] After preparation of the PEG-immobilized chiral linker 1d (vide infra), enamine formation with cyclopentanone and cyclohexanone carboxylate 2d and 2a was carried out in the presence of catalytic amounts of TFA without removal of water (Scheme 4). The corresponding PEG-bound enamines 3d and 3e, which are formed almost quantitatively, were converted with methyl vinyl ketone (4) in asymmetric Michael reactions catalyzed by copper() acetate.…”
Section: Enamine Formation and Michael Reactionsmentioning
confidence: 99%