FAQ for Multi-channel Biosensor Analyzer NMBA-104
1: What is a Multi-Channel Biosensor Analyzer NMBA-104?
Multi-Channel Biosensor Analyzer NMBA-104 is a device that detects and analyzes multiple biological or chemical substances. It uses separate channels for simultaneous testing.
2: How many channels does the Multi-Channel Biosensor Analyzer NMBA-104 support?
Our Multi-Channel Biosensor Analyzer NMBA-100 has 8 independent channels. This allows parallel detection of multiple analytes.
3: What is the resolution of the Multi-Channel Biosensor Analyzer NMBA-104?
Multi-Channel Biosensor Analyzer NMBA-104 provides a high resolution of 0.01. This ensures precise and reliable measurement results with a precision of <2%.
4: What are common applications of Multi-Channel Biosensor Analyzer NMBA-104?
Multi-Channel Biosensor Analyzer NMBA-104 is used in diagnostics, environmental monitoring, and food safety. It is suitable for both research and field applications.
5: Can the data be monitored in real time in Multi-Channel Biosensor Analyzer NMBA-104?
Yes, Multi-Channel Biosensor Analyzer NMBA-104 supports real-time monitoring. Thus, the users can view and analyze data instantly.
6: What are biosensor analyzers used for?
Our Biosensor analyzers are devices that combine a biological element with a transducer to detect specific substances in a sample. They can be used for detecting pollutants, monitoring medical parameters, or quality control in food production.
7: How do biosensor analyzers work?
A biological interacts with the analyte. This interaction generates a signal that is then converted into a measurable form (like electrical or optical) by the transducer.
8: Are biosensor analyzers used in clinical settings?
Yes, Labnics biosensor analyzers are used in various medical applications, such as blood glucose monitoring, detecting specific biomarkers for disease diagnosis, and even for drug delivery and monitoring.
9: What are the advantages of using biosensor analyzers?
Labnics Biosensor analyzers can be highly sensitive and specific, allowing for the detection of low concentrations of analytes. They can also be smaller, more affordable, and faster than traditional methods, making them suitable for various applications.
