| 2757 - 2757 |
ENANTIOSEPARATIONS
Bonato PS |
| 2758 - 2764 |
Analysis of genetic variation in Globocephaloides populations from macropodid marsupials using a mutation scanning-based approach
Fazenda IP, Beveridge I, Chilton NB, Jex AR, Pangasa A, Campbell BE, Huby-Chilton F, Carvalho LM, Gasser RB |
| 2765 - 2772 |
Progress in microchip enantioseparations
Nagl S, Schulze P, Ludwig M, Belder D |
| 2773 - 2802 |
Advanced CE for chiral analysis of drugs, metabolites, and biomarkers in biological samples
Mikus P, Marakova K |
| 2803 - 2811 |
About the role of enantioselective selector-selectand interactions and the mobilities of diastereomeric associates in enantiomer separations using CE
Lomsadze K, Martinez-Giron AB, Castro-Puyana M, Chankvetadze L, Crego AL, Salgado A, Marina ML, Chankvetadze B |
| 2812 - 2819 |
Combined use of chiral ionic liquid and cyclodextrin for MEKC: Part I. Simultaneous enantioseparation of anionic profens
Wang B, He J, Bianchi V, Shamsi SA |
| 2820 - 2828 |
Combined use of chiral ionic liquid and CD for MEKC: Part II. Determination of binding constants
Wang B, He J, Bianchi V, Shamsi SA |
| 2829 - 2836 |
The effect of co-surfactant-modified micelles on chiral separations in EKC
Kojtari AB, Guetschow ED, Foley JP |
| 2837 - 2844 |
Enantiomeric separation of chiral dipeptides by CE-ESI-MS employing a partial filling technique with chiral crown ether
Xia SF, Zhang L, Lu MH, Qiu B, Chi YW, Chen GN |
| 2845 - 2852 |
Enantiospecific binding of Rotigotine and its antipode to serum albumins: Investigation of binding constants and binding sites by partial-filling ACE
Chu BL, Lin JM, Wang ZH, Guo BY |
| 2853 - 2861 |
Investigation of a dual CD chiral CE system for separation of glitazone compounds
Jamali B, Bjornsdottir I, Cornett C, Hansen SH |
| 2862 - 2868 |
Effect of the nature of the single-isomer anionic CD and the BGE composition on the enantiomeric separation of beta-blockers in NACE
Rousseau A, Chiap P, Oprean R, Crommen J, Fillet M, Servais AC |
| 2869 - 2873 |
Enantioseparation by MEKC using a ligand exchange-based chiral pseudostationary phase
Zaher M, Ravelet C, Vanhaverbeke C, Baussanne I, Perrier S, Fize J, Decout JL, Peyrin E |
| 2874 - 2881 |
Box-Behnken design for the optimization of an enantioselective method for the simultaneous analysis of propranolol and 4-hydroxypropranolol by CE
Borges KB, Pupo MT, de Freitas LAP, Bonato PS |
| 2882 - 2889 |
On-column labeling technique and chiral ligand-exchange CE with zinc(II)-L-arginine complex as a chiral selector for assay of dansylated D,L-amino acids
Qi L, Yang GL |
| 2890 - 2896 |
CEC enantioseparations of carboxylic acids on silica-based monoliths modified with ergot alkaloid derivative
Messina A, Moroni S, Flieger M, Sinibaldi M, Ursini O |
| 2897 - 2904 |
Enantioseparation of amino acids, alpha-hydroxy acids, and dipeptides by ligand-exchange CEC using silica-based chiral stationary phases
Pittler E, Grawatsch N, Paul D, Gubitz G, Schmid MG |
| 2905 - 2911 |
Direct chiral analysis of primary amine drugs in human urine by single drop microextraction in-line coupled to CE
Choi K, Kim J, Jang YO, Chung DS |
| 2912 - 2921 |
CE provides evidence of the stereoselective hydroxylation of norketamine in equines
Schmitz A, Theurillat R, Lassahn PG, Mevissen M, Thormann W |
| 2922 - 2930 |
Differentiation of green tea samples by chiral CD-MEKC analysis of catechins content
Gotti R, Furlanetto S, Lanteri S, Olmo S, Ragaini A, Cavrini V |
| 2931 - 2939 |
Simultaneous enantioselective determination of fenamiphos and its two metabolites in soil sample by CE
Lecoeur-Lorin M, Delepee R, Morin P |
| 2940 - 2946 |
Optimisation and validation of a new CE method for the determination of lansoprazole enantiomers in pharmaceuticals
Nevado JJB, Penalvo GC, Sanchez JCJ, Mochon MC, Dorado RMR, Navarro MV |
| 2947 - 2954 |
Simultaneous separation of epinephrine and norepinephrine enantiomers by EKC: Application to the analysis of pharmaceutical formulations
Castro-Puyana M, Drewnowska R, Perez-Fernandez V, Garcia MA, Crego AL, Marina ML |
