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VersaSCANElectrochemical Scanning SystemThe VersaSCAN is a single platform capable of providing spatial resolution to both electrochemical and materials-based measurements. Each VersaSCAN is based on a common high-resolution, long-travel, closed-loop positioning system mounted to a vibration-resistant optical base. Different auxiliary pieces are mounted to the positioning system. These ancillary pieces (e.g., an electrometer, piezo vibration unit, or a laser sensor) provide functionality to the positioning system for different scanning probe experiments. VersaSTAT potentiostats and Signal Recovery Lock-in Amplifiers are integrated via ethernet control to make accurate measurements of these small signals.
Each technique uses a different measurement probe that is positioned close, but not in conact to the sample. After a measurement is made at the probe, its position is incremented. Plotting recorded parameter versus probe position creates a data map. Depending on the technique, this map could represent local electrochemical current, impedance, relative work function, or topography.
The VersaSCAN SECM integrates the Base with two VersaSTAT Potentiostats and an ultramicroelectrode probe with a specific tapered polish. SECM is a versatile technique adding spatial resolution to applications such as kinetics, biological sensors, catalyst, and corrosion mechanisms.
Compatible Potentiostats: VersaSTAT 3F and either a VersaSTAT 3 / 3F /4
Capable of Approach Curves experiments and both Feedback Mode and Generator-Collector Mode imaging modes
Can perform Constant-Distance operation in conjunction with a topographic measurement technique, typically OSP
VersaSTATs are additionally capable of a vast suite of standard non-scanning electrochemical tests depending on their specific software model
Compatible Lock-in Amplifier: Signal Recovery 7230
Capable of both single Line Scans and Area Scans
Capable of Time-Resolved Imaging when programmed as a sequence
Compatible Potentiostats: VersaSTAT 3F with Differential Auxiliary Option
Capable of running both fixed-frequency /swept position plots for data maps and fixed-position / swept-frequency plots Bode or Nyquist plots
Can perform Constant-Distance operation in conjunction with a topographic measurement technique, typically OSP.
VersaSCAN SKPScanning Kelvin ProbeThe VersaSCAN SKP integrates the Base with a Signal Recovery Lock-in Amplifier, a piezo-based vibration module, an electrometer and a tungsten-wire probe. The SKP technique measures relative work function difference between the measurement probe and that position on the sample. This is a non-destructive technique typically ran in ambient or humidified air, absent of electrolyte. Relative Work Function has been demonstrated to be able to be correlated to Corrosion Potential (Ecorr). SKP adds spatial resolution to applications such as materials, semi-conductors, and corrosion of metals…even with coatings on them.
Capable of Topography Mode experiments to measure and set probe-to-sample distance
Can perform Constant-Distance operation in conjunction with the Topography Mode experiments, using the same probe.
Compatible Potentiostats: VersaSTAT 3 / 3F /4
Capable of running both constant bias/swept position plots for data maps and fixed-position/ dynamic signal plots for Cyclic Voltammetry, Tafel, EIS, etc.
Capable of running experiments with flowing or static drop of electrolyte.
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