Fluorometer LMFMR-A100 is the next generation benchtop dual-channel fluorometers having excitation filters of 365 ± 20 nm and 460 ± 20 nm. It measures ds-DNA concentration with great sensitivity and a lower DNA detection limit of 0.5 ng/µl. Designed to provide fluorescence in the UV and blue channels for accurate determination of sample concentration.
Get QuoteDynamic range | Five orders of magnitude |
Linear dynamic range | R2 >0.995 |
Processing time | 3s (Once) |
Light source | UV LED Blue LED |
Excitation filters | 365 ± 20 nm 460 ± 20 nm |
Emission filters | 420 to 480 nm (60 nm) 525 to 570 nm (45 nm) |
Detector | Photodiode |
Repeatability | < 1.5 % |
Stability | <1.5 % |
Sensitivity | ds DNA: 0.5 ng/ml |
Dimension (W × D × H) | 194 × 155 × 72.5 mm |
Weight | 0.4 kg |
Designed with 4.3-inch touch screen, small and easy to use
Simple protein, RNA, and DNA measurements in 3 seconds
Detects DNA with high sensitivity with a limit of 0.5 ng/µl
Five orders of magnitude linear dynamic range
Provided with two fluorescence channels for nucleic acid, protein quantitation in one detection
Offers opening system for ease of the user
Adopts PCR tube adapter for efficient operation
Saves at most 1,000 data and output data by USB port
Adapter for 0.5 ml qPCR tube
Adapter for 0.2 ml qPCR tube
Fluorometer is used to measure concentration of the substances on the basis of fluorescence emitted by them across mineralogy, medicine, and chemical sensors.
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Fluorometer LMFMR-A100
The Fluorometer represents a cutting-edge advancement in benchtop dual-channel fluorometry. Equipped with excitation filters at 365 ± 20nm and 460 ± 20nm, it offers precise measurements of ds-DNA concentration with exceptional sensitivity, boasting an impressively low DNA detection threshold of 0.5 ng/µl. This instrument has been meticulously engineered to deliver fluorescence readings within the UV and blue spectral ranges, ensuring the utmost accuracy when determining sample concentrations. This innovation lies in its dual-channel configuration, enabling concurrent measurement at two distinct excitation wavelengths. This capability enhances versatility and efficiency, making it a valuable tool for various research applications.