Columns play a central role in High-Performance Liquid Chromatography (HPLC) as they are responsible for the separation of components within a sample. The sample is introduced into the column, and as it passes through, it separates into its individual components.
HPLC columns are typically filled with silica gel due to its particle size, porosity, and inert nature, which makes it suitable for separating compounds with different chemical properties. The material inside the HPLC columns is referred to as the stationary phase.
There are several types of chromatography columns based on their composition and separation methods:
- Normal Phase HPLC Columns:
- In normal phase columns, the stationary phase is more polar than the mobile phase. Silica, a polar material, is often used as the packing material.
- Typically, water is not used as the mobile phase because it is more polar than silica. Instead, solvents like methylene chloride, hexane, chloroform, or mixtures of these with diethyl ether are used.
- Separation occurs based on the polarity of the sample components. More polar components interact more with the polar stationary phase, leading to their separation from less polar components that interact with the less polar mobile phase.
- Normal phase chromatography is commonly used in pharmaceutical analysis.
- Reverse Phase HPLC Columns:
- In reverse phase columns, the stationary phase is non-polar or less polar compared to the more polar mobile phase.
- Stationary phases like bonded hydrocarbons (e.g., C8 and C18) are used, while the mobile phase often consists of aqueous organic solutions such as water-methanol or water-acetonitrile mixtures.
- Separation in reverse phase columns is also based on the polarity of sample components but in the opposite manner compared to normal phase columns.
- Reverse phase chromatography is widely used in HPLC.
- Ion Exchange HPLC Columns:
- These columns are used to analyze compounds that can easily ionize.
- The stationary phase in ion exchange columns is either acidic or basic and carries a negative or positive charge, while the mobile phase is a polar liquid, often a salt solution in water.
- Separation occurs based on the attractive ionic forces between molecules and the charged stationary phase, hence the name "Ion Exchange Chromatography."
- Size Exclusion HPLC Columns:
- Size exclusion columns use a porous stationary phase to separate components based on their size.
- A combination of polymers like polysaccharides and silica is commonly used as the stationary phase.
- Small sample molecules penetrate the pores of the stationary phase, while larger molecules penetrate only partially. As a result, larger molecules elute first, and this type of chromatography is known as "Size Exclusion Chromatography."
- Size exclusion columns are not typically used for pharmaceutical compound analysis.
HPLC columns vary in length, typically ranging from 30 mm to 250 mm, and particle size or porosity, typically between 3µ and 5µ. The choice of column depends on the nature of the compounds being analyzed and the mobile phase used. Column performance should also be periodically evaluated, often after approximately 1000 runs or as needed during HPLC analytical method development.