Davy Guillarme scite author profile

ReviewFast analysis in liquid chromatography using small particle size and high pressureIn order to enhance chromatographic performances in terms of efficiency and rapidity, LC has recently evolved in the development of short columns packed with small particles (sub-2 lm) working at high pressures (A400 bar). This approach has been described 30 years ago according to the fundamental chromatographic equations. However, systems and columns compatible with such high pressures have been introduced in the market in 2004 only. Advantages of small particles working at high pressure will be discussed in terms of sensitivity, efficiency, resolution, and analysis time. Potential problems encountered with high pressure in terms of frictional heating and solvent compressibility will also be discussed even if systems working at a maximum pressure of 1000 bar are not influenced by these parameters and give reliable and reproducible results. Several applications will highlight the potential and interest of this new technology.

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Modern analytical supercritical fluid chromatography using columns packed with sub-2μm particles: A tutorial

Nováková

Perrenoud

François

et al. 2014

Analytica Chimica Acta

231

164

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New trends in fast and high-resolution liquid chromatography: a critical comparison of existing approaches

et al. 2009

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Recent developments in chromatographic supports and instrumentation for liquid chromatography (LC) are enabling rapid and highly efficient separations. Various analytical strategies have been proposed, for example the use of silica-based monolithic supports, elevated mobile phase temperatures, and columns packed with sub-3 microm superficially porous particles (fused core) or with sub-2 microm porous particles for use in ultra-high-pressure LC (UHPLC). The purpose of this review is to describe and compare these approaches in terms of throughput and resolving power, using kinetic data gathered for compounds with molecular weights ranging between 200 and 1300 g mol(-1) in isocratic and gradient modes. This study demonstrates that the best analytical strategy should be selected on the basis of the analytical problem (e.g., isocratic vs. gradient, throughput vs. efficiency) and the properties of the analyte. UHPLC and fused-core technologies are quite promising for small-molecular-weight compounds, but increasing the mobile phase temperature is useful for larger molecules, for example peptides.

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Chromatographic, Electrophoretic, and Mass Spectrometric Methods for the Analytical Characterization of Protein Biopharmaceuticals

et al. 2015

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Adding a new separation dimension to MS and LC–MS: What is the utility of ion mobility spectrometry?

D’Atri

Causon

Hernandez‐Alba

et al. 2017

J of Separation Science

144

134

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* These authors contributed equally.Ion mobility spectrometry is an analytical technique known for more than 100 years, which entails separating ions in the gas phase based on their size, shape, and charge. While ion mobility spectrometry alone can be useful for some applications (mostly security analysis for detecting certain classes of narcotics and explosives), it becomes even more powerful in combination with mass spectrometry and high-performance liquid chromatography. Indeed, the limited resolving power of ion mobility spectrometry alone can be tackled when combining this analytical strategy with mass spectrometry or liquid chromatography with mass spectrometry. Over the last few years, the hyphenation of ion mobility spectrometry to mass spectrometry or liquid chromatography with mass spectrometry has attracted more and more interest, with significant progresses in both technical advances and pioneering applications. This review describes the theoretical background, available technologies, and future capabilities of these techniques. It also highlights a wide range of applications, from small molecules (natural products,

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Theory and practice of size exclusion chromatography for the analysis of protein aggregates

Fekete

Beck

Veuthey

et al. 2014

Journal of Pharmaceutical and Biomedical Analysis

232

123

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Intact protein analysis in the biopharmaceutical field

Staub

Guillarme

Schappler

et al. 2011

Journal of Pharmaceutical and Biomedical Analysis

155

116

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Ion-exchange chromatography for the characterization of biopharmaceuticals

Fekete

Beck

Veuthey

et al. 2015

Journal of Pharmaceutical and Biomedical Analysis

196

108

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Davy Guillarme

Fast analysis in liquid chromatography using small particle size and high pressure

Modern analytical supercritical fluid chromatography using columns packed with sub-2μm particles: A tutorial

New trends in fast and high-resolution liquid chromatography: a critical comparison of existing approaches

Chromatographic, Electrophoretic, and Mass Spectrometric Methods for the Analytical Characterization of Protein Biopharmaceuticals

Adding a new separation dimension to MS and LC–MS: What is the utility of ion mobility spectrometry?

Theory and practice of size exclusion chromatography for the analysis of protein aggregates

Intact protein analysis in the biopharmaceutical field

Ion-exchange chromatography for the characterization of biopharmaceuticals

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