The ultra-micro spectrophotometer provides an effective and accurate optical density measurement method for scientific experiments through its high sensitivity, micro sample requirements and real-time monitoring.
No sample dilution required:
Microvolume spectrophotometers eliminate the need for cumbersome dilution of samples prior to testing.
Traditionally, it has been necessary to dilute samples with higher concentrations in order to accommodate the measurement range of the instrument, which consumes time and adds to the number of operating steps. Microvolume spectrophotometers, on the other hand, allow direct processing of raw samples without the need for dilution, making measurements faster and easier.
At the same time, the introduction of the light source flicker algorithm greatly increases the service life of the light source. This feature allows the DUT to be detected more quickly and less easily degraded.
Faster detection: With no sample dilution required, microvolume spectrophotometers are able to complete measurements more quickly during the inspection process.
Sample preparation and processing times are greatly reduced, and the concentration range of measurable samples is more than 150 times that of conventional photometers. This allows the instrument to be more flexible to adapt to the detection of a wide range of samples, thus increasing the efficiency of the experiment.
These two characteristics of ultra-microvolume spectrophotometers make them widely used in the laboratory for DNA RNA measurement, protein determination, cell culture monitoring, and other fields.
Under the premise of not affecting the accuracy, researchers can operate more conveniently and obtain experimental results more quickly, which improves the efficiency of laboratory work and the reliability of experimental data.