Characterization of stationary phases for reversed-phase chromatography

被引：32

作者：

Molikova, Martina ^{[1
]}

Jandera, Pavel ^{[1
]}

机构：

[1] Univ Pardubice, Dept Analyt Chem, CZ-53210 Pardubice, Czech Republic

来源：

JOURNAL OF SEPARATION SCIENCE | 2010年 / 33卷 / 4-5期

关键词：

Column characterization; Homologous series; Lipophilicity; Naphthalene sulphonic acids; Silanol activity; PERFORMANCE LIQUID-CHROMATOGRAPHY; GRADIENT ELUTION; RETENTION; COLUMNS; SELECTIVITY; SEPARATION; HPLC;

D O I：

10.1002/jssc.200900699

中图分类号：

O65 [分析化学];

学科分类号：

070302 ; 081704 ;

摘要：

Retention characteristics of seven silica-based chromatographic columns (Bidentate C18, Silica-hydride, Spherisorb ODS-1, Resolve C18, XTerra C18, XBridge Phenyl and Blaze C8 Polydentate) were compared. The columns differ in the character of the support, including silica type B. hydrosilated silica, and hybrid silica gel with incorporated methyl groups, or ethylene bridges; further in the type of chemically bonded stationary phase, including C-18, C-8 and phenyl ligands, endcapped and non-endcapped with single point, bidentate and polydentate multi-point attachment to the adsorbent surface. Special attention was focused on hydrophobic and polar selectivity, silanol activity and anion-exclusion. The columns were compared and classified on the basis of the results of the classical column performance tests, retention of homologous n-alkylbenzenes over a broad composition range of aqueous-organic mobile phases and of naphthalene sulphonic acids in aqueous mobile phases without organic solvents.

引用

页码：453 / 463

页数：11

共 50 条

[21] INTERACTIONS OF LYSOZYME WITH HYDROPHILIC AND HYDROPHOBIC POLYMETHACRYLATE STATIONARY PHASES IN REVERSED-PHASE CHROMATOGRAPHY (RPC)
HANSON, M
UNGER, KK
DENOYEL, R
ROUQUEROL, J
JOURNAL OF BIOCHEMICAL AND BIOPHYSICAL METHODS, 1994, 29 (3-4): : 283 - 294
[22] PROPERTIES AND CHARACTERIZATIONS OF STATIONARY AND MOBILE PHASES USED IN REVERSED-PHASE LIQUID-CHROMATOGRAPHY
HERON, S
TCHAPLA, A
ANALUSIS, 1993, 21 (08) : 327 - 347
[23] The role of reversed-phase liquid chromatography stationary phases in solvent-optimization procedures
vanStraten, MA
Lynch, RJ
Claessens, HA
LC GC-MAGAZINE OF SEPARATION SCIENCE, 1995, 13 (06): : 488 - &
[24] Selectivity Tests of Stationary Phases for Reversed-Phase HPLC
Vynuchalova, Katerina
Jandera, Pavel
ANALYTICAL LETTERS, 2011, 44 (09) : 1640 - 1662
[25] MOVEMENT OF COMPONENTS IN REVERSED-PHASE CHROMATOGRAPHY .2. EIGENPEAKS IN REVERSED-PHASE CHROMATOGRAPHY WITH SILICA-BOUND HYDROCARBONACEOUS STATIONARY PHASES - EFFECT OF THE ELUITE STRUCTURE
MELANDER, WR
ERARD, JF
HORVATH, C
JOURNAL OF CHROMATOGRAPHY, 1983, 282 (DEC): : 229 - 248
[26] Phenylvinylmethylpolysiloxane encapsulated stationary phase for reversed-phase liquid chromatography
Yang, RQ
Jiang, SX
Chen, LR
JOURNAL OF LIQUID CHROMATOGRAPHY & RELATED TECHNOLOGIES, 1998, 21 (11) : 1569 - 1578
[27] STATIONARY PHASE EFFECTS IN REVERSED-PHASE LIQUID-CHROMATOGRAPHY
COLIN, H
KRSTULOVIC, A
GUIOCHON, G
YUN, Z
JOURNAL OF CHROMATOGRAPHY, 1983, 255 (JAN): : 295 - 309
[28] SYNTHESIS AND CHARACTERIZATION OF NOVEL BONDED PHASES FOR REVERSED-PHASE LIQUID-CHROMATOGRAPHY
STALCUP, AM
MARTIRE, DE
SANDER, LC
WISE, SA
CHROMATOGRAPHIA, 1989, 27 (9-10) : 405 - 411
[29] Retention mechanism for polycyclic aromatic hydrocarbons in reversed-phase liquid chromatography with monomeric stationary phases
Rafferty, Jake L.
Siepmann, J. Ilja
Schure, Mark R.
JOURNAL OF CHROMATOGRAPHY A, 2011, 1218 (51) : 9183 - 9193
[30] High molecular-shape-selective stationary phases for reversed-phase liquid chromatography: A review
Mallik, Abul K.
Qiu, Hongdeng
Takafuji, Makoto
Ihara, Hirotaka
TRAC-TRENDS IN ANALYTICAL CHEMISTRY, 2018, 108 : 381 - 404

← 1 2 3 4 5 →