The Eppendorf µCuvette™ G1.0 is a microliter measuring cell, and therefore it is especially suited for photometric measurements of high sample concentrations in the Eppendorf photometers (Eppendorf BioPhotometer or Eppendorf BioSpectrometer). Photometric measurements are only as accurate as the device and corresponding accessory. Thus, selecting the perfect cuvette is just as important as choosing the right device.
The new Eppendorf µCuvette G1.0 – Less is more
Concerning the Lambert Beers Law, the higher the concentration of a sample, the shorter the optical path length should be with which the sample will be measured. The μCuvette G1.0 features an optical path length of only 1 mm, which is 10 times shorter than the light path length of standard cuvettes. For example, this allows nucleic acid concentrations to be measured with high reproducibility in a much higher concentration range (up to 1,500ng/ µL) without prior dilution. Only 1.5μL of a sample is required for the measurement.
The µCuvette G1.0 has been developed exclusively for Eppendorf BioPhotometer and BioSpectrometer. The devices are pre-programmed to a layer thickness of 1mm. All BioSpectrometer are offering in addition a pre-programmed method to quantify nucleic acid using the µCuvette G1.0. After selecting this method or the 1mm layer thickness in the parameter settings, the software realizes all calculations considering the layer thickness. In addition, the optical characteristics of the devices, as e.g. the light beam focusing and light beam guidance, are optimally adjusted to those of the µCuvette G1.0. The usage in older BioPhotometer and BioSpectrometer devices is possible without limitations in performance.
This optimization as well as the connection of both cuvette parts by means of a low-backlash journal bearing joint provide for highly reproducible conditions during measurement.