HTS XT-Kopie

FT-IR Microplate Reader HTS-XT

High-throughput FT-IR Analysis with HTS-XT


The HTS-XT is a microplate reader extension for high-throughput screening in infrared (IR) spectroscopy The module itself can be connected to different Bruker Optics FTIR spectrometers. Depending on its configuration it can be used for measurements in the mid infrared to the near infrared and even the VIS range.

The sampling plates for the IR analysis correspond to the standardized  96-, 384- or 1536-well microplate formats. For analysis, approximately 1-20 µl of a liquid sample are placed on a single sampling position of the microplate and dried. The sample volume prepared depends on sample form, measurement mode and sample plate design.

Different types of reusable, easy to clean microplates can be used in the HTS-XT.

Solid samples are first dried and ground before they are filled into a well of the microplate. The loaded sample plate is moved into the sealed optics by a motorized drawer. Then the measurement of the microplate is performed fully automated in the measurement modes transmission and/or reflectance by successively moving each sample position into the focus of the IR beam.

Request more information

OPUS gives you Full Control

The HTS-XT is controlled by the OPUS/LAB software that allows the automatic measurement and evaluation of spectra from large sample numbers. For the quantitative determination even of several analytes in complex samples modern multivariate methods like PLS (Partial Least Squares) are used.

To perform qualitative analyses various algorithms like spectra correlation, PCA (Principal Component Analysis) and ANN (Artifical Neural Networks) are available. The storage of measurement parameters and results in a logfile permits an easy transfer of sample data to external programmes or to Laboratory Information Management Systems (LIMS).

OPUS/LAB is an easy to use data acquisition and evaluation software package for HTS applications.

Applications of HTS-XT

The general benefit of the IR spectroscopy comes with the molecular information present in each IR spectrum. Whereas other high-throughput methods require the use of specific marker systems to allow the analysis of a certain parameter, the infrared microplate analysis provides an entire range of structural and molecular information on the substances of interest in a single measurement!

Use it for

  • Identification of microorganisms
  • Determination of contamination routes
  • Polymerization kinetics of varnish films and multicomponent glues
  • Characterization of cells (producers/non-producers)
  • Identification and type determination of diamonds
  • Soil analysis (classify soil types and quantify parameters)
Quantitative determination of rosmarinic acid in cultured lavendar cells. Derivative spectra from lavendar with low (blue), medium (green) and high (red) levels of rosmarinic acid.