Different Types of HPLC Detectors
Different Types of HPLC Detectors
1. UV/Vis Absorbance Detector
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Principle: Measures absorbance of analytes at a specific wavelength (Beer-Lambert Law).
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Types:
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Fixed Wavelength UV (e.g., 254 nm)
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Variable Wavelength UV
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Diode Array Detector (DAD/PDA) – allows spectral scanning.
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Applications: Compounds with UV chromophores (e.g., APIs, impurities).
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Advantages: High sensitivity, widely used, cost-effective.
2. Fluorescence Detector (FLD)
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Principle: Measures fluorescence emitted by analytes after excitation with UV light.
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Applications: Highly sensitive detection of compounds like vitamins, proteins, drugs with native fluorescence or after derivatization.
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Advantages: Selective and very sensitive (up to 100–1000× more sensitive than UV).
3. Refractive Index Detector (RID)
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Principle: Detects changes in refractive index of the mobile phase caused by analytes.
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Applications: Sugars, lipids, polymers, compounds without UV absorbance.
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Advantages: Universal detector, simple to operate.
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Limitations: Less sensitive, cannot be used with gradient elution.
4. Evaporative Light Scattering Detector (ELSD)
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Principle: Mobile phase is evaporated, and light scattering from analyte particles is measured.
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Applications: Non-volatile and semi-volatile analytes without chromophores (e.g., lipids, sugars).
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Advantages: Detects compounds that UV or RID cannot.
5. Conductivity Detector
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Principle: Measures ionic conductivity changes.
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Applications: Ion chromatography, inorganic ions, ionic drugs.
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Advantages: Highly selective for ionic species.
6. Mass Spectrometry Detector (LC–MS)
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Principle: Ionizes analytes and measures mass-to-charge ratio (m/z).
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Applications: Structure elucidation, trace-level quantification, pharmacokinetics, impurity profiling.
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Advantages: High sensitivity, specificity, and qualitative/quantitative capabilities.
7. Electrochemical Detector (ECD)
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Principle: Measures current produced by oxidation or reduction of analytes at an electrode surface.
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Applications: Neurotransmitters, vitamins, certain drugs.
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Advantages: Extremely sensitive for electroactive compounds.
8. Charged Aerosol Detector (CAD)
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Principle: Nebulized mobile phase, charged aerosol particles detected.
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Applications: Lipids, carbohydrates, peptides, polymers.
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Advantages: Universal detection, gradient-compatible.