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Journal of Liquid Chromatography Volume 16, 1993 - Issue 1
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Original Articles

Comparison of the Enantioselectivity of Phenethyl- and Naphthylethyl-Carbamate Substituted Cyclodextrin Bonded Phases

M. L. Hilton Department of Chemistry, University of Missouri-Rolla, Rolla, Missouri, 65401; Dow Chemical Company, Midland, Michigan
,
S.-C. Chang Department of Chemistry, University of Missouri-Rolla, Rolla, Missouri, 65401
,
M. P. Gasper Department of Chemistry, University of Missouri-Rolla, Rolla, Missouri, 65401
,
M. Pawlowska Department of Chemistry, University of Missouri-Rolla, Rolla, Missouri, 65401
,
D. W. Armstrong Department of Chemistry, University of Missouri-Rolla, Rolla, Missouri, 65401
&
A. M. Stalcup Department of Chemistry, University of Hawaii-Manoa, Honolulu, Hawaii, 96822
Pages 127-147 | Received 22 Jun 1992, Accepted 06 Jul 1992, Published online: 23 Sep 2006

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Hongwei Yu, Chi Bun Ching, Ping Fu & Siu Chong Ng. (2002) Enantioseparation of fluoxetine on a new β-cyclodextrin bonded phase column by HPLC. Separation Science and Technology 37:6, pages 1401-1415.
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D.W. Armstrong, L.W. Chang, S.C. Chang, X. Wang, H. Ibrahim, G.R. Reid , III & T.E. Beesley. (1997) Comparison of the Enantioselectivity of β-Cyclodextrin vs. Heptakis-2,3-O-dimethyl-β-cyclodextrin LC Stationary Phases. Journal of Liquid Chromatography & Related Technologies 20:20, pages 3279-3295.
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Articles from other publishers (18)

Yazhou Shuang, Tianci Zhang & Laisheng Li. (2020) Preparation of a stilbene diamido-bridged bis(β-cyclodextrin)-bonded chiral stationary phase for enantioseparations of drugs and pesticides by high performance liquid chromatography. Journal of Chromatography A 1614, pages 460702.
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Jiayi Sun, Siman Ma, Beibei Liu, Jia Yu & Xingjie Guo. (2019) A fully derivatized 4-chlorophenylcarbamate-β-cyclodextrin bonded chiral stationary phase for enhanced enantioseparation in HPLC. Talanta 204, pages 817-825.
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Yuzhou Lin, Jie Zhou, Jian Tang & Weihua Tang. (2015) Cyclodextrin clicked chiral stationary phases with functionalities-tuned enantioseparations in high performance liquid chromatography. Journal of Chromatography A 1406, pages 342-346.
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Kahina Si-Ahmed, Fairouz Tazerouti, Ahmed Y. Badjah-Hadj-Ahmed, Zeineb Aturki, Giovanni D’Orazio, Anna Rocco & Salvatore Fanali. (2010) Optical isomer separation of flavanones and flavanone glycosides by nano-liquid chromatography using a phenyl-carbamate-propyl-β-cyclodextrin chiral stationary phase. Journal of Chromatography A 1217:7, pages 1175-1182.
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Kahina Si-Ahmed, Fairouz Tazerouti & Ahmed Y. Badjah-Hadj-Ahmed. (2009) Preparation and enantioseparation characteristics of three chiral stationary phases based on modified β-cyclodextrin for liquid chromatography. Analytical and Bioanalytical Chemistry 395:2, pages 507-518.
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Gerald Gübitz & Martin G. Schmid. 2001. Kirk-Othmer Encyclopedia of Chemical Technology. Kirk-Othmer Encyclopedia of Chemical Technology.
Hassan Aboul-Enein & Imran Ali. 2003. Chiral Separations By Liquid Chromatography And Related Technologies. Chiral Separations By Liquid Chromatography And Related Technologies 89 136 .
Gloria Uccello‐Barretta, Lelia Ferri, Federica Balzano & Piero Salvadori. (2003) Partially versus Exhaustively Carbamoylated Cyclodextrins: NMR Investigation on Enantiodiscriminating Capabilities in Solution. European Journal of Organic Chemistry 2003:9, pages 1741-1748.
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Akira Motoyama, Ayako Suzuki, Osamu Shirota & Ryujiro Namba. (2002) Direct determination of pindolol enantiomers in human serum by column-switching LC-MS/MS using a phenylcarbamate-β-cyclodextrin chiral column. Journal of Pharmaceutical and Biomedical Analysis 28:1, pages 97-106.
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Gerald Gübitz & Martin G. Schmid. (2002) Chiral separation by chromatographic and electromigration techniques. A Review. Biopharmaceutics & Drug Disposition 22:7-8, pages 291-336.
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C. Cachau, A. Thienpont, M. -H. Soulard & G. Félix. (1997) Chromatographic properties in normal-mode HPLC of chiral stationary phases based on substituted β-cyclodextrins. Chromatographia 44:7-8, pages 411-416.
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Françoise Bressolle, Michel Audran, Tuyet-Nga Pham & Jean-Jacques Vallon. (1996) Cyclodextrins and enantiomeric separations of drugs by liquid chromatography and capillary electrophoresis: basic principles and new developments. Journal of Chromatography B: Biomedical Sciences and Applications 687:2, pages 303-336.
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Y. Tang, J. Zukowski & D.W. Armstrong. (1996) Investigation on enantiomeric separations of fluorenylmethoxycarbonyl amino acids and peptides by high-performance liquid chromatography using native cyclodextrins as chiral stationary phases. Journal of Chromatography A 743:2, pages 261-271.
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Mary P. Gasper, Alain Berthod, Usha B. Nair & Daniel W. Armstrong. (1996) Comparison and Modeling Study of Vancomycin, Ristocetin A, and Teicoplanin for CE Enantioseparations. Analytical Chemistry 68:15, pages 2501-2514.
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Usha B. Nair, Samuel S.C. Chang, Daniel W. Armstrong, Yasir Y. Rawjee, Drake S. Eggleston & James V. McArdle. (1996) Elucidation of vancomycin's enantioselective binding site using its copper complex. Chirality 8:8, pages 590-595.
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Bezhan Chankvetadze, Eiji Yashima & Yoshio Okamoto. (1996) Dichloro-, dimethyl-, and chloromethylphenylcarbamate derivatives of cyclodextrins as chiral stationary phases for high-performance liquid chromatography. Chirality 8:5, pages 402-407.
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Kyung-Hyun. Gahm & Apryll M. Stalcup. (2002) Capillary Zone Electrophoresis Study of Naphthylethylcarbamoylated .beta.-Cyclodextrins. Analytical Chemistry 67:1, pages 19-25.
Crossref
Tibor Cserháti. (1994) Relationship between the physicochemical parameters of 3,5-dinitrobenzoic acid esters and their retention behaviour on β-cyclodextrin polymer support. Analytica Chimica Acta 292:1-2, pages 17-22.
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