White Paper

White Paper: Comparison between Array and Scanning UV Vis Spectrophotometers

White Paper

Array vs. Scanning Spectrophotometer: Which Is the Best Fit for Your Lab?

Download the white paper which compares array and scanning UV Vis spectrophotometer setups and assesses their individual performances and benefits.
Download the white paper which compares array and scanning UV Vis spectrophotometer setups and assesses their individual performances and benefits.

Are you trying to decide between an array and scanning spectrophotometer for your lab? It's important to understand the pros and cons of each before making a decision.

Our white paper provides in-depth insights into the advantages and disadvantages of both options, along with considerations such as cost, throughput, and analytical capabilities.

Our expert analysis will help you make the best decision for your lab and ensure you choose the right analytical instrument for your specific needs. 

 

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Array versus Scanning UV Vis Spectrophotometer

A UV Vis spectrophotometer can be classified according to the geometry of the components that build up the optical system for the recording of spectra. The following configurations are generally used in UV Vis spectroscopy:

  • Scanning spectrophotometer, usually equipped with a Tungsten-Deuterium lamp
  • Array spectrophotometer, usually equipped with a Xenon lamp

Most currently available UV Vis spectrophotometers are equipped either with Tungsten-Deuterium lamps or a Xenon lamp. Spectrophotometer design, in particular the type of lamp and internal optical configuration used, contributes to varying performance characteristics which can influence the efficiency of your lab. What are the differences between each instrument setup? Do you know the benefits of Xenon lamp Spectrophotometers with an array optical configuration?

Xenon versus Tungsten-Deuterium Lamp

Tungsten-Deuterium lamp spectrophotometers are considerably less efficient since two lamps are required to cover the UV Vis spectral range. Moreover, they must continue to operate during the entire instrument up-time. This contributes to shorter life-times and higher instrument maintenance costs.

Xenon lamps, however, cover a similar spectral range with only one lamp. In this case, this type of instrument lamp  operates only for the duration of the actual measurement and boasts a minimum lifetime of ten years.