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Multi-wavelength deep-ultraviolet absorbance detector based upon program-controlled pulsing light-emitting diodes.

Ibraam E Mikhail1, Mohamed Hemida1, Leo Lebanov1

  • 1Australian Centre for Research on Separation Science (ACROSS), School of Natural Sciences (Chemistry), University of Tasmania, Hobart, Tasmania 7001, Australia.

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|September 18, 2023
PubMed
Summary
This summary is machine-generated.

A new pulsed multi-wavelength ultraviolet absorbance detector (PMLAD) was developed using a single board computer and FPGA. This novel system enables simultaneous analysis of pharmaceuticals like paracetamol, caffeine, and aspirin with high accuracy.

Keywords:
Deep-ultraviolet absorptionHigh performance liquid chromatographyMulti-wavelength detectionPulsing light-emitting diodesRed Pitaya

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Area of Science:

  • Analytical Chemistry
  • Spectroscopy
  • Instrumentation

Background:

  • Traditional UV absorbance detection methods can be limited in speed and multiplexing capabilities.
  • Deep-ultraviolet light-emitting diodes (DUV-LEDs) offer potential for compact and efficient absorbance measurements.
  • Integrating advanced computing with optical detection is crucial for modern analytical instrumentation.

Purpose of the Study:

  • To introduce a novel pulsed multi-wavelength ultraviolet absorbance detector (PMLAD) for enhanced analytical performance.
  • To demonstrate the system's capability for simultaneous pharmaceutical analysis using liquid chromatography.
  • To validate the detector's linearity, accuracy, and quantitation limits.

Main Methods:

  • A single board computer (SBC) with a field-programmable gate array (FPGA) was used to generate synchronized micro-pulses for three DUV-LEDs (235, 250, 280 nm).
  • Data acquisition and processing were performed using a custom-made program, with combined DUV-LED outputs transmitted via optical fiber to a flow cell.
  • An ultra-fast photodiode recorded DUV pulse intensities, and the system was coupled with a standard liquid chromatograph.

Main Results:

  • The PMLAD demonstrated excellent linearity with upper limits of linearity (A95%) ranging from 1768 to 2189 mAU and effective path lengths ≥98.0%.
  • Stray light was measured to be ≤0.9%.
  • Simultaneous determination of paracetamol, caffeine, and aspirin was achieved with high linearity (r² ≥ 0.99996) and low quantitation limits (LOQs) down to 0.10 µg/mL.

Conclusions:

  • The developed pulsed multi-LEDs absorbance detector (PMLAD) offers a sensitive and selective method for pharmaceutical analysis.
  • The use of absorbance ratios between wavelengths aids in compound identification.
  • This novel approach provides a robust platform for multi-wavelength UV detection in chromatography.