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Thin Layer Chromatography

Silica gel TLC plates showing clearly separated colored spots

Thin layer chromatography (TLC) is an affinity-based method used to separate compounds in a mixture. TLC is a highly versatile separation method that is widely used for both qualitative and quantitative sample analysis. TLC can be used to analyze virtually any substance class, including pesticides, steroids, alkaloids, lipids, nucleotides, glycosides, carbohydrates, and fatty acids.

In TLC, the stationary phase is a thin adsorbent material layer, usually silica gel or aluminum oxide, coated onto an inert plate surface, typically glass, plastic, or aluminum. The sample is spotted onto one end of the TLC plate and placed vertically into a closed chamber with an organic solvent (mobile phase). The mobile phase travels up the plate by capillary forces and sample components migrate varying distances based on their differential affinities for the stationary and mobile phases. When the solvent reaches the top of the plate, the plate is removed from the developing chamber and dried. The separated components appear as spots on the plate and the retention factor (Rf) of each component is assessed.


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TLC process and principles

TLC is based on the classic chromatography principle where mixture components are separated between a fixed stationary phase and a liquid mobile phase by differential affinities between the two phases.

TLC retention factor (Rf)

The retention factor (Rf) is used to measure the movement of compounds along the TLC plate. Rf is defined as the distance travelled by an individual component divided by the total distance travelled by the solvent. Its value is always between zero and one.

Rf = distance traveled by component
distance traveled by solvent


In general, the stronger a compound binds to the stationary phase adsorbent, the slower it migrates up the TLC plate. As TLC adsorbents are typically polar, non-polar compounds tend to travel more rapidly up the plate, resulting in a higher Rf values, whereas polar compounds tend to move slowly and have lower Rf values.

Applications of TLC

TLC is widely used by many industries and research fields, including pharmaceuticals, clinical testing, environmental toxicology, food, water and pesticide analysis, and cosmetics. Typical applications of TLC include:

  • Analysis of drug residues and antibiotics in food and environmental samples
  • Identification and quantification of colors, ingredients, preservatives, and sweetening agents in food and cosmetic products
  • Quality control and purity testing of pharmaceutical formulations
  • Rapid, high-throughput screening prior to HPLC
  • Examination of chemical reactions for completion