Bonnie A. Alden scite author profile

The characterization and evaluation of three novel 5-microm HPLC column packings, prepared using ethyl-bridged hybrid organic/inorganic materials, is described. These highly spherical hybrid particles, which vary in specific surface area (140, 187, and 270 m(2)/g) and average pore diameter (185, 148, and 108 A), were characterized by elemental analysis, SEM, and nitrogen sorption analysis and were chemically modified in a two-step process using octadecyltrichlorosilane and trimethylchlorosilane. The resultant bonded materials had an octadecyl surface concentration of 3.17-3.35 micromol/m(2), which is comparable to the coverage obtained for an identically bonded silica particle (3.44 micromol/m(2)) that had a surface area of 344 m(2)/g. These hybrid materials were shown to have sufficient mechanical strength under conditions normally employed for traditional reversed-phase HPLC applications, using a high-pressure column flow test. The chromatographic properties of the C(18) bonded hybrid phases were compared to a C(18) bonded silica using a variety of neutral and basic analytes under the same mobile-phase conditions. The hybrid phases exhibited similar selectivity to the silica-based column, yet had improved peak tailing factors for the basic analytes. Column retentivity increased with increasing particle surface area. Elevated pH aging studies of these hybrid materials showed dramatic improvement in chemical stability for both bonded and unbonded hybrid materials compared to the C(18) bonded silica phase, as determined by monitoring the loss in column efficiency through 140-h exposure to a pH 10 triethylamine mobile phase at 50 degrees C.

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Simple preparation of a C8 HPLC stationary phase with an internal polar functional group

O’Gara¹,

Alden²,

Walter³

et al. 1995

Anal. Chem.

157

100

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Characterization of HPLC packings

Neue¹,

Tran²,

Iraneta³

et al. 2003

J of Separation Science

134

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Several chromatographic test procedures are in use for the characterization of commercially available packings. The results of the test procedure used in our laboratory are updated and further refined. Two well-defined physico-chemical properties of packings can be derived from this test procedure, the hydrophobicity of a packing and the silanophilic activity at pH 7. In addition, our method is unique in its ability to differentiate between classical packings and packings with incorporated polar groups. We can also distinguish CN packings or fluorinated packings. Our database now includes over 100 commercially available packings. The ability of the test to cleanly discriminate between different classes of packings has been strengthened. Limited comparisons with other published tests are now possible as well, and the results of these comparisons are discussed.

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Universal procedure for the assessment of the reproducibility and the classification of silica-based reversed-phase packings

Neue

Serowik

Iraneta

et al. 1999

Journal of Chromatography A

146

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Universal procedure for the assessment of the reproducibility and the classification of silica-based reversed-phase packings

Neue

Alden

Walter

1999

Journal of Chromatography A

141

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Bonnie A. Alden

Characterization and Evaluation of C₁₈ HPLC Stationary Phases Based on Ethyl-Bridged Hybrid Organic/Inorganic Particles

Simple preparation of a C8 HPLC stationary phase with an internal polar functional group

Characterization of HPLC packings

Universal procedure for the assessment of the reproducibility and the classification of silica-based reversed-phase packings

Universal procedure for the assessment of the reproducibility and the classification of silica-based reversed-phase packings

Contact Info

Product

Resources

About

Bonnie A. Alden

Characterization and Evaluation of C18 HPLC Stationary Phases Based on Ethyl-Bridged Hybrid Organic/Inorganic Particles

Simple preparation of a C8 HPLC stationary phase with an internal polar functional group

Characterization of HPLC packings

Universal procedure for the assessment of the reproducibility and the classification of silica-based reversed-phase packings

Universal procedure for the assessment of the reproducibility and the classification of silica-based reversed-phase packings

Contact Info

Product

Resources

About

Characterization and Evaluation of C₁₈ HPLC Stationary Phases Based on Ethyl-Bridged Hybrid Organic/Inorganic Particles