Product advantage
1. Photon counting photomultiplication technology
The single photon counting photomultiplier technology of Boluteng uses the natural dispersion of photoelectric output signals under weak light, and adopts the detection design of biological weak light signals-pulse high intensity discrimination and digital counting technology to distinguish and extract the real weak light signals submerged in background noise. The performance of photomultiplier tube is directly related to the photon counting ability. Lux-T020 can realize the counting ability exceeding 100Mio pulse/second, and does not need to add Gain coefficient and high voltage limit switch to obtain wide linearity, which greatly prolongs the service life of the detector and ensures the accuracy and repeatability of each detection.
 
 
2. High sensitivity
The detection sensitivity was less than or equal to 10 amol ATP or 20 zmol luciferase, and the detection ability of ultra-low intensity signal. The truly optimized low-noise single-photon PMT, optimized darkroom and optical path design, and patented photoelectric conversion counting method ensure the ultra-low background noise of Lux-T020, which makes Lux-T020 can detect a very small concentration of analysis samples and truly reach the international equivalent level.
 
3. Wide dynamic range
Up to 7 orders of magnitude linear range, the wide dynamic range covers almost all the detection ranges of chemiluminescence and bioluminescence reactions, and it is easy to distinguish the bioluminescence weak light signal from the chemiluminescence strong light signal of the same batch of samples without diluting samples or adjusting the gain of detectors.
 
4. The test results are consistent
Strict structural design, precise optical path calibration and design, and super stable photon counting ensure unparalleled measurement repeatability and ensure that you get accurate, reliable and traceable data.
 
5. Low reagent cost
Using 12x55mm test tube or EP tube, combined with ultra-high sensitivity detection, the demand for reagent samples is greatly reduced, and the experimental cost is reduced.