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In analytical and organic chemistry, elution is the process of extracting one material from another by washing with a solvent: washing of loaded ion-exchange resins to remove captured ions, or eluting proteins or other biopolymers from a gel electrophoresis or chromatography column.

Elution principle of column chromatography

In a liquid chromatography experiment, for example, an analyte is generally adsorbed by ("bound to") an adsorbent in a liquid chromatography column. The adsorbent, a solid phase, called a "stationary phase", is a powder which is coated onto a solid support. Based on an adsorbent's composition, it can have varying affinities to "hold onto" other molecules—forming a thin film on the surface of its particles. Elution then is the process of removing analytes from the adsorbent by running a solvent, called an "eluent", past the adsorbent–analyte complex. As the solvent molecules "elute", or travel down through the chromatography column, they can either pass by the adsorbent–analyte complex or displace the analyte by binding to the adsorbent in its place. After the solvent molecules displace the analyte, the analyte can be carried out of the column for analysis. This is why as the mobile phase, called an "eluate", passes out of the column, it typically flows into a detector or is collected by a fraction collector for compositional analysis.

Predicting and controlling the order of elution is a key aspect of column chromatographic and column electrophoretic methods.

Eluotropic series

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An eluotropic series is listing of various compounds in order of eluting power for a given adsorbent. The "eluting power" of a solvent is largely a measure of how well the solvent can "pull" an analyte off the adsorbent to which it is attached. This often happens when the eluent adsorbs onto the stationary phase, displacing the analyte. Such series are useful for determining necessary solvents needed for chromatography of chemical compounds. Normally such a series progresses from non-polar solvents, such as n-hexane, to polar solvents such as methanol or water. The order of solvents in an eluotropic series depends both on the stationary phase as well as on the compound used to determine the order.

Adsorption strength (least strongly adsorbed → most strongly adsorbed)
Saturated hydrocarbons; alkyl halides Unsaturated hydrocarbons; alkenyl halides Aromatic hydrocarbons; aryl halides Polyhalogenated hydrocarbons Ethers Esters Aldehydes and ketones Alcohols Acids and bases (amines)
Eluting power (least eluting power → greatest eluting power)
Hexane or pentane Cyclohexane Benzene Dichloromethane Chloroform Ether (anhydrous) Ethyl acetate (anhydrous) Acetone (anhydrous) Methanol Ethanol Pyridine Acetic acid Water

Eluent

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The eluent or eluant is the "carrier" portion of the mobile phase. It moves the analytes through the chromatograph. In liquid chromatography, the eluent is the liquid solvent; in gas chromatography, it is the carrier gas.[1]

Eluate

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The eluate contains the analyte material that emerges from the chromatograph. It specifically includes both the analytes and coeluting solutes passing through the column, while the eluent is only the carrier.

Elution time and elution volume

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The "elution time" of a solute is the time between the start of the separation (the time at which the solute enters the column) and the time at which the solute elutes. In the same way, the elution volume is the volume of eluent required to cause elution. Under standard conditions for a known mix of solutes in a certain technique, the elution volume may be enough information to identify solutes. For instance, a mixture of amino acids may be separated by ion-exchange chromatography. Under a particular set of conditions, the amino acids will elute in the same order and at the same elution volume.

Antibody elution

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Antibody elution is the process of removing antibodies that are attached to their targets, such as the surface of red blood cells. Techniques include using heat, a freeze-thaw cycle, ultrasound, acids or organic solvents. No single method is best in all situations.[2]

See also

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References

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  1. ^ "IUPAC Gold Book: eluent". International Union of Pure and Applied Chemistry. doi:10.1351/goldbook.E02040. Retrieved 2008-09-28. {{cite journal}}: Cite journal requires |journal= (help)
  2. ^ George H. Roberts (2006). "Elution Techniques in Blood Bank" (PDF). American Medical Technologists (AMT). Archived from the original (PDF) on 2019-07-11. Retrieved 2020-07-22.
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