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Ion-Exchange Chromatography01:09

Ion-Exchange Chromatography

Ion-exchange chromatography, or IEC, is a technique for separating ions based on their affinity for the stationary phase. The stationary phase is a cross-linked polymer resin with covalently attached ionic functional groups. The functional groups can be either positively charged (cation exchangers) or negatively charged (anion exchangers). A cation exchanger consists of a polymeric anion and active cations, while an anion exchanger is a polymeric cation with active anions. The choice of...
High-Performance Liquid Chromatography: Introduction01:11

High-Performance Liquid Chromatography: Introduction

High-performance liquid chromatography(HPLC), formerly referred to as High-pressure liquid chromatography, is a powerful technique used to separate, identify, and quantify components in complex mixtures. The term "high pressure" refers to using high pressure to push the liquid mobile phase through the tightly packed columns.
In HPLC, two phases play a critical role in the separation process:
High-Performance Liquid Chromatography: Instrumentation00:57

High-Performance Liquid Chromatography: Instrumentation

High-performance liquid chromatography, or HPLC, is an analytical technique that separates liquid samples under high pressures. An HPLC instrument consists of glass bottles for storing solvents called mobile phase reservoirs. HPLC-grade solvents are used to maintain high purity, and the dissolved gases are removed using a degasser, such as a vacuum pumping system or sparging with helium. The solvents are then pumped into the analytical column using a screw-driven syringe or reciprocating pumps.
High-Performance Liquid Chromatography: Elution Process01:05

High-Performance Liquid Chromatography: Elution Process

In High-Performance Liquid Chromatography (HPLC), the elution process is critical to the separation of analytes and the quality of chromatographic results. Elution describes how compounds move through the column and separate based on their interactions with the mobile and stationary phases. This process determines the resolution, peak shape, and retention times in the chromatogram, which are essential for identifying and quantifying components in complex mixtures. Understanding the elution...
Supercritical Fluid Chromatography01:18

Supercritical Fluid Chromatography

Supercritical fluid chromatography (SFC) provides a beneficial substitute for gas chromatography (GC) and liquid chromatography (LC) for certain samples because it merges the top attributes of both techniques. SFC allows the separation and analysis of compounds that GC or LC does not easily manage. These compounds are traditionally nonvolatile or thermally unstable, making GC unsuitable and lacking functional groups required for HPLC analysis.
SFC utilizes a supercritical fluid mobile phase,...
Chromatographic Methods: Classification01:12

Chromatographic Methods: Classification

Chromatographic techniques are classified in three ways: the classification is based on the physical state of the stationary and mobile phases, how the mobile phase and the stationary phase contact each other, or through the chemical or physical processes that isolate the components of the sample. Typically, the mobile phase is either a liquid or gas, while the stationary phase is either a solid or a liquid layer applied to a solid surface.
Chromatographic techniques are typically named by...

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Updated: May 21, 2026

Automated Hydrophobic Interaction Chromatography Column Selection for Use in Protein Purification
10:21

Automated Hydrophobic Interaction Chromatography Column Selection for Use in Protein Purification

Published on: September 21, 2011

Hydrodynamic chromatography.

André M Striegel1, Amandaa K Brewer

  • 1Analytical Chemistry Division, National Institute of Standards and Technology, Gaithersburg, Maryland 20899, USA.

Annual Review of Analytical Chemistry (Palo Alto, Calif.)
|June 20, 2012
PubMed
Summary
This summary is machine-generated.

Hydrodynamic chromatography (HDC) is regaining popularity for characterizing particles and polymers. Multidetector HDC offers comprehensive analysis of molar mass, size, and shape with reduced shear force.

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Area of Science:

  • Chromatography
  • Polymer Science
  • Materials Characterization

Background:

  • Hydrodynamic chromatography (HDC) is experiencing a resurgence for particle and polymer analysis.
  • Its revival is driven by coupling with advanced physical detection methods.

Observation:

  • HDC coupled with light scattering, viscometric, and refractometric detectors provides comprehensive characterization.
  • This technique determines molar mass, size, shape, and structure of colloidal analytes.
  • Analysis is performed continuously and as a function of multiple parameters in a single run.

Findings:

  • Multidetector HDC offers a powerful approach for detailed colloidal analyte characterization.
  • The technique minimizes shear forces, reducing the risk of flow-induced degradation compared to other methods like size-exclusion chromatography.
  • Fundamental aspects of retention, band broadening, and resolution in HDC are discussed.

Implications:

  • This review highlights the utility of multidetector HDC for in-depth material analysis.
  • The findings support HDC as a preferred method for sensitive characterization of polymers and particles.
  • Recent literature examples showcase the practical applications and power of this technique.