BioLogic M470 Electrochemical Scanning System – Precision Mapping for Advanced Research
The BioLogic M470 Electrochemical Scanning System is a cutting-edge instrument designed to provide high-resolution, spatially-resolved measurements for advanced material, corrosion, and biological research. This scanning electrochemical workstation is a fully modular platform that combines flexibility with scientific precision, offering researchers the ability to explore local electrochemical properties with unparalleled clarity.
Equipped with a 110 mm x, y, and z scan range and submicron positioning accuracy, the system allows for precise control during surface scans. The M470’s modular architecture supports multiple interchangeable techniques including Scanning Electrochemical Microscopy (SECM), Scanning Kelvin Probe (SKP), Scanning Vibrating Electrode Technique (SVET), Local Electrochemical Impedance Spectroscopy (LEIS), and more. This makes it a truly versatile modular electrochemical analyzer for multidisciplinary applications.
The integrated software platform offers intuitive experiment design, real-time control, macro scripting, and seamless data analysis. With programmable automation, researchers can conduct repeatable and highly customized experiments, essential for studying corrosion mechanisms, battery degradation, biosensors, and thin film characterization.
This high-resolution electrochemical mapping system excels in both academic and industrial laboratories due to its robust design and adaptability. It is widely used in electrochemistry, materials science, semiconductor development, and biomolecular surface studies.
Backed by BioLogic’s reputation for quality and innovation, the M470 provides an unmatched balance of functionality, accuracy, and expandability. Whether you’re investigating nanostructured materials, biological interactions, or electrochemical reactions, this BioLogic M470 system delivers the precision tools needed to advance your research.
An Electrochemical Scanning System is designed for spatial measurements in electrochemical and materials experiments. Traditional electrochemical experiments measure an average response across the entire electrode/electrolyte interface. However, samples are not always homogenous – often there are areas of passivate/active nature or anodic/cathodic character. This is where scanning probe electrochemistry is ideal.
Our electrochemical scanning systems consist of a high resolution, long-travel, closed-loop positioning system mounted to a vibration-resistant optical base. Auxiliary pieces are then added, each with its own functionality for specific scanning probe experiments. These auxiliary pieces include electrometers, piezo vibration units and laser sensors.
Each system uses a different measurement probe that is positioned close to, but not in contact with the sample. After measurement, its position is incremented. A data map is created by plotting the recorded parameter against the probe position. Depending on the technique, this map represents local electrochemical current, impedance, relative work function or topography.
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