Includes bibliographical references and index.

Elements of the theory of multidimensional liquid chromatography -- Peak capacity in two-dimensional liquid chromatography -- Decoding complex 2D separations -- Instrumentation for comprehensive multidimensional liquid chromatography -- Method development in comprehensive multidimensional liquid chromatography -- Monolithic columns and their 2D-HPLC applications -- Ultrahigh pressure multidimensional liquid chromatography -- Peptidomics -- Two-dimensional liquid mass mapping technique for biomarker discovery -- Coupled multidimensional chromatography and tandem mass spectrometry systems for complex peptide mixture analysis -- Development of orthogonal 2DLC methods for separation of peptides -- Multidimensional separation of proteins with online electrospray time-of-flight mass spectrometric detection -- Analysis of enantiomeric compounds using multidimensional liquid chromatography -- Two-dimensional capillary electrophoresis for the comprehensive analysis of complex protein mixtures -- Two-dimensional HPLC-CE methods for protein/peptide separation -- Multidimensional liquid chromatography in industrial applications -- Analysis of surfactants by multidimensional liquid chromatography.

This work describes the theory, methodology, and applications of multidimensional liquid phase separations using liquid chromatography and, in some cases, capillary electrophoresis. It addresses the applications of MDLC with an emphasis on advances that have increased the practicality of using the technique in today's lab.