Ion exchange chromatography – introduction and classification MCQs With Answer

Ion exchange chromatography – introduction and classification MCQs With Answer

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Ion exchange chromatography is a core separation technique in pharmaceutical analysis that separates molecules by charge using charged stationary phases (resins). In B. Pharm labs it’s essential for protein and peptide purification, drug impurity profiling, formulation characterization, and quality control. Key concepts include stationary phase chemistry (strong vs weak exchangers), functional groups (sulfonic, carboxylic, quaternary ammonium), resin backbone, exchange capacity, selectivity, pH and ionic strength effects, elution strategies (salt or pH gradients), gradient design, detection (conductivity), resin regeneration, and scale-up principles. A strong conceptual and practical grasp helps in method development and troubleshooting. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. What is the fundamental separation principle of ion exchange chromatography?

  • Size exclusion based on molecular diameter
  • Hydrophobic interactions with the stationary phase
  • Electrostatic interactions between charged analytes and charged stationary phase
  • Specific affinity between ligand and target molecule

Correct Answer: Electrostatic interactions between charged analytes and charged stationary phase

Q2. Which statement correctly classifies ion exchange resins?

  • Cation exchangers bind negatively charged analytes
  • Anion exchangers bind positively charged analytes
  • Cation exchangers have negatively charged functional groups and bind cations
  • All ion exchangers are neutral and separate by size

Correct Answer: Cation exchangers have negatively charged functional groups and bind cations

Q3. Which functional group is typical of a strong cation exchanger?

  • Carboxylate (-COO–)
  • Sulfonic acid (-SO3–)
  • Tertiary amine (-NR3)
  • Hydroxyl (-OH)

Correct Answer: Sulfonic acid (-SO3–)

Q4. What is a common synthetic backbone material for high-stability ion exchange resins?

  • Cellulose
  • Agarose
  • Polystyrene-divinylbenzene (PS-DVB)
  • Silica gel without modification

Correct Answer: Polystyrene-divinylbenzene (PS-DVB)

Q5. How does pH primarily affect retention on weak ion exchangers?

  • It changes the mobile phase viscosity only
  • It alters ionization state of analyte and resin functional groups, affecting retention
  • It affects only temperature of the column
  • pH has no effect on weak exchangers

Correct Answer: It alters ionization state of analyte and resin functional groups, affecting retention

Q6. How is the total exchange capacity of an ion exchange resin defined?

  • The flow rate at which the resin operates optimally
  • Total amount of exchangeable ions per unit mass of dry resin (meq/g)
  • Volume of mobile phase consumed per run
  • Number of theoretical plates in the column

Correct Answer: Total amount of exchangeable ions per unit mass of dry resin (meq/g)

Q7. What does the selectivity coefficient describe in ion exchange?

  • The temperature dependence of retention time
  • The resin’s physical porosity
  • The relative preference of the resin for one ion over another
  • The flow resistance of the packed bed

Correct Answer: The relative preference of the resin for one ion over another

Q8. Which elution strategy increases ionic strength to displace bound ions?

  • Isocratic elution with pure water
  • Salt gradient elution (increasing counter-ion concentration)
  • Temperature ramping
  • Decreasing mobile phase ionic strength

Correct Answer: Salt gradient elution (increasing counter-ion concentration)

Q9. What is Donnan exclusion in the context of ion exchange resins?

  • Preferential exclusion of co-ions (same charge as the fixed resin charge) from resin pores
  • Complete neutralization of resin charge at any pH
  • Physical exclusion of large molecules by pore size
  • Hydrophobic shielding of charged sites

Correct Answer: Preferential exclusion of co-ions (same charge as the fixed resin charge) from resin pores

Q10. Which functionalized resin is an example of a strong cation exchanger used in protein separations?

  • Carboxymethyl (CM)
  • Sulfopropyl (SP)
  • Diethylaminoethyl (DEAE)
  • Hydroxylated silica

Correct Answer: Sulfopropyl (SP)

Q11. Which functional group is characteristic of a strong anion exchanger?

  • Quaternary ammonium (-NR4+)
  • Carboxylate (-COO–)
  • Sulfonate (-SO3–)
  • Phenyl ring

Correct Answer: Quaternary ammonium (-NR4+)

Q12. Which detector is commonly used for measuring ionic species eluting from an ion exchange column?

  • UV-Vis at 280 nm only
  • Fluorescence detector
  • Conductivity detector
  • Refractive index detector

Correct Answer: Conductivity detector

Q13. How does a high salt concentration in the sample solvent affect ion exchange binding?

  • It enhances binding by reducing mobile phase ionic strength
  • It reduces binding due to competition from sample ions
  • It increases column efficiency automatically
  • It has no effect on ion exchange binding

Correct Answer: It reduces binding due to competition from sample ions

Q14. In a cation exchange process, which ion typically serves as the counter-ion in the mobile phase?

  • Chloride (Cl–)
  • Sodium (Na+)
  • Sulfate (SO4 2–)
  • Hydroxide (OH–)

Correct Answer: Sodium (Na+)

Q15. At pH below its isoelectric point (pI), a protein will have which net charge and bind to which exchanger?

  • Net negative; binds to anion exchanger
  • Net positive; binds to cation exchanger
  • Neutral; no binding to any exchanger
  • Net negative; binds to cation exchanger

Correct Answer: Net positive; binds to cation exchanger

Q16. How is the capacity factor (k’) defined in chromatography?

  • k’ = t0 / tR
  • k’ = (tR – t0) / t0
  • k’ = column length × flow rate
  • k’ = mobile phase viscosity / temperature

Correct Answer: k’ = (tR – t0) / t0

Q17. Which action typically improves chromatographic resolution on an ion exchange column?

  • Reducing the number of theoretical plates
  • Decreasing column efficiency
  • Increasing column efficiency (more theoretical plates)
  • Using an irrelevant organic solvent

Correct Answer: Increasing column efficiency (more theoretical plates)

Q18. Which of the following is a common pharmaceutical application of ion exchange chromatography?

  • Measuring vapor pressure of solvents
  • Protein and peptide purification based on charge
  • Measuring lipid partition coefficients only
  • Assessing tablet hardness

Correct Answer: Protein and peptide purification based on charge

Q19. Which reagent is commonly used to regenerate a cation exchange resin to the H+ form?

  • Sodium hydroxide (NaOH)
  • Hydrochloric acid (HCl)
  • Sodium chloride (NaCl)
  • Ethanol

Correct Answer: Hydrochloric acid (HCl)

Q20. Which statement distinguishes strong ion exchangers from weak ion exchangers?

  • Strong exchangers lose charge near neutral pH
  • Strong exchangers maintain ionization (fixed charge) over a wide pH range
  • Weak exchangers are always better for high pH
  • Strong exchangers are only used for organic solvents

Correct Answer: Strong exchangers maintain ionization (fixed charge) over a wide pH range

Q21. What is the principle of displacement ion exchange chromatography?

  • Using temperature to displace analytes from resin
  • Introducing a displacer that has stronger affinity, continuously pushing analytes off the resin into discrete zones
  • Using decreasing salt to elute bound analytes
  • Partitioning analytes by hydrophobicity

Correct Answer: Introducing a displacer that has stronger affinity, continuously pushing analytes off the resin into discrete zones

Q22. In a cation exchange separation of Na+ and Ca2+, which ion typically elutes first under identical conditions?

  • Ca2+
  • Na+
  • They coelute exactly
  • Depends only on column temperature

Correct Answer: Na+

Q23. Which parameter primarily determines the order of elution in ion exchange chromatography?

  • Column color
  • Selectivity (affinity differences between ions)
  • Pump brand
  • Ambient humidity

Correct Answer: Selectivity (affinity differences between ions)

Q24. What is an advantage of gradient elution in ion exchange chromatography?

  • It eliminates the need for buffers
  • It shortens analysis time and helps elute strongly retained components
  • It always reduces resolution
  • It only works for neutral compounds

Correct Answer: It shortens analysis time and helps elute strongly retained components

Q25. How does resin pore size influence separation of large biomolecules?

  • It only affects color of the eluate
  • Pore size affects accessibility of binding sites and mass transfer, influencing resolution for large biomolecules
  • Pore size is irrelevant for proteins
  • Smaller pores always improve binding of large proteins

Correct Answer: Pore size affects accessibility of binding sites and mass transfer, influencing resolution for large biomolecules

Q26. What is the effect of decreasing particle size of the ion exchange resin?

  • Decreases column backpressure
  • Decreases column efficiency
  • Increases efficiency but increases backpressure
  • Makes the resin hydrophobic

Correct Answer: Increases efficiency but increases backpressure

Q27. How is the distribution coefficient (Kd) in ion exchange typically defined?

  • Kd = volume of mobile phase / column length
  • Kd = (amount of ion bound per mass of resin) / (equilibrium concentration in solution)
  • Kd = flow rate × column diameter
  • Kd = mobile phase pH × temperature

Correct Answer: Kd = (amount of ion bound per mass of resin) / (equilibrium concentration in solution)

Q28. What is the purpose of conductivity suppression in ion chromatography?

  • To increase background conductivity for better signal
  • To reduce background conductivity and enhance sensitivity for ionic analytes
  • To make the mobile phase fluorescent
  • To sterilize the column

Correct Answer: To reduce background conductivity and enhance sensitivity for ionic analytes

Q29. Which mobile phase component is generally NOT used in routine aqueous ion exchange chromatography?

  • Buffered salt solutions
  • Organic modifiers like low-percent methanol or acetonitrile
  • High concentrations of nonpolar solvent like hexane
  • pH-adjusting acids or bases

Correct Answer: High concentrations of nonpolar solvent like hexane

Q30. During scale-up of an ion exchange method from analytical to preparative column, which parameter should typically be maintained to preserve chromatographic behavior?

  • Total column volume only
  • Linear velocity (flow velocity through the column)
  • Absolute flow rate without regard to column cross-section
  • Only the column packing time

Correct Answer: Linear velocity (flow velocity through the column)

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