18. Which one of the following is true during the separation of biomolecules by reversed-phase chromatography?
A. Stationary phase is less polar than the mobile phase
B. Stationary phase is more polar than the mobile phase
C. Both the stationary and the mobile phase have the same polarity
D. Polarity of the mobile phase does not play any role
Reversed-phase chromatography uses a non-polar stationary phase and a polar mobile phase, making option A correct.
This principle is key for biomolecule separation in exams like GATE Life Sciences.
Correct Answer
A. Stationary phase is less polar than the mobile phase
Option Analysis
Reversed-phase chromatography (RPC) separates biomolecules based on hydrophobicity using a hydrophobic column and aqueous-organic mobile phase.
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A. Stationary phase is less polar than the mobile phase: Correct. Stationary phase (C18/C8 silica) is non-polar/hydrophobic; mobile phase (water + acetonitrile/methanol) is polar. Hydrophobic biomolecules bind stronger to stationary phase.
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B. Stationary phase is more polar than the mobile phase: Incorrect—this describes normal-phase chromatography (polar silica, non-polar hexane mobile phase).
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C. Both the stationary and the mobile phase have the same polarity: Wrong—equal polarity eliminates separation mechanism (no partitioning gradient).
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D. Polarity of the mobile phase does not play any role: False—mobile phase polarity controls elution via gradient (e.g., increasing acetonitrile reduces retention).
Reversed-phase chromatography stationary phase polarity drives biomolecule separation in proteomics and pharmaceuticals, essential for GATE Life Sciences preparation.
Core Principle
In RPC, the stationary phase (non-polar C18 chains bonded to silica) has lower polarity than the polar mobile phase (water/acetonitrile). Hydrophobic molecules partition into stationary phase; polar ones elute first. Gradient elution increases organic solvent to elute retained analytes.
Normal vs Reversed-Phase Comparison
| Aspect | Normal Phase | Reversed-Phase |
|---|---|---|
| Stationary Phase | Polar (silica) | Non-polar (C18) |
| Mobile Phase | Non-polar (hexane) | Polar (water/ACN) |
| Retention Order | Polar first | Non-polar first |
| Common Use | Lipids, sugars | Peptides, proteins |
Reversed-phase dominates HPLC (90%+ applications) due to aqueous compatibility.
Why Stationary Phase Must Be Less Polar
Polar stationary phase fails RPC—biomolecules wouldn’t partition hydrophobically. Mobile phase polarity gradients (5-95% organic) precisely control retention time based on hydrophobicity.
GATE Exam Tip
This PYQ tests chromatography fundamentals. Remember: “Reversed” = reversed polarities vs normal phase. Practice with peptide maps where hydrophobic residues (Leu, Ile) elute later.
2 Comments
Vanshika Sharma
January 29, 2026Reverse phase uses non polar stationary phase and polar mobile phase
Kanica Sunwalka
June 25, 2026in HIC
stationary phase is non plar or less polar
mobile phase is polar
option a is correct