A novel derivatization procedure and chiral gas chromatographic method for enantiomeric purity screening of L-carnitine.

L-Carnitine is used extensively in functional foods and food supplements; consequently, the control of its enantiomeric purity is of paramount importance. A new derivatization procedure and chiral gas chromatographic method with flame ionization detection, using a cyclodextrin based stationary phase, enables prompt, simple, and inexpensive screening of the enantiomeric ratio of L- and D-carnitine in samples with different matrices. Conversion of carnitine to beta-acetoxy-gama-butyrolactone was optimized for maximum conversion (98% of the desired product lactone was formed and 2% of the side product gama-crotonolactone) and minimum racemization (no changes at the chiral center were detected) and time consumption.

Profiling the tuneable R-SMS-Phos structure in the rhodium(I)-catalyzed hydrogenation of olefins: the last stand?

A diversified family of enantiopure P-stereogenic "R-SMS-Phos" {R-SMS-Phos = 1,2-bis[(o-RO-phenyl)(phenyl)phosphino]ethane} ligands wherein R = branched or heteroatom-substituted alkyl, aralkyl, silyl, acyl, sulfonyl, etc. was screened for the Rh(I)-catalyzed hydrogenation of a representative set of olefinic substrates. This systematic and detailed investigation revealed a marked beneficial impact on enantioselectivity and catalyst activity in comparison to Knowles' ultimate DiPAMP {DiPAMP = 1,2-bis[(o-anisyl)(phenyl)phosphino]ethane} design.

Impact on hydrogenation catalytic cycle of the R groups' cyclic feature in "R-SMS-Phos".

A series of R-SMS-Phos ligands was evaluated in the Rh(I)-catalyzed hydrogenation of a set of olefins showing a marked influence of the cyclic nature and structure of the R groups. Overall, cPen- and Cy-SMS-Phos performed efficiently, while Ph- and Bn-SMS-Phos exhibited slower kinetics and furnished lower ee's also compared with C(6)F(5)CH(2)-SMS-Phos. The Rh(I)-(Cy-SMS-Phos) catalyst was screened under mild conditions displaying excellent enantioselectivities and high TOFs.

Heavyweight "R-SMS-Phos" ligands in the olefins' hydrogenation arena.

A series of enantiopure P-stereogenic 1,2-bis[(o-RO-phenyl)(phenyl)phosphino]ethane (R-SMS-Phos) ligands wherein R = i-Pr, i-Bu, t-Bu, 3-Pen, and CH(2)TMS was assessed in the Rh(I)-catalyzed hydrogenation of an indicative set of olefins. The best performing t-Bu-SMS-Phos ligand was screened against a wide range of representative classes of standard and new olefinic substrates such as dehydroamido esters, dehydro-alpha-amido-phosphonates, enamides, itaconates, acrylates, enol acetates, alpha-phosphonovinyl benzoates, alpha-(2-pyridyl N-oxide)styrenes, and alpha-(1-hydroxyliminoethyl)styrenes. Excellent enantioselectivities and high TOFs were attained under mild conditions.