BoHrScan S6
High-Resolution 3D Imaging and Micro-Area Electrochemical Analysis System
The system integrates scanning ion conductance microscopy, scanning electrochemical cell microscopy, and scanning electrochemical microscopy in a flexible modular platform.
Three scanning technologies in one configurable platform
With a modular architecture, BoHrScan S6 can be configured with SICM, SECCM, and SECM modules to support non-contact high-resolution single-cell studies and nanoscale material electrochemistry.
Two core application fields
Life Science Research
Perform nanoscale high-resolution imaging and in-situ dynamic parameter detection on live cells in culture media.
- High-resolution 3D single-cell imaging
- Ion channel and ionic current detection
- Micro-nano delivery, collection, and detection
- Sample modulus and surface charge
Material Electrochemistry
Measure 3D morphology, electrochemical signals, and performance with nanoscale spatial resolution under in-situ electrochemical reaction conditions.
- Battery material performance
- Micro-nano 3D deposition and etching
- Electrocatalysis and electrochemical sensing
- Localized material corrosion
Configurable modules for research needs
Nanoscale positioning module
Electrochemical measurement module
Optical microscopic imaging module
Data acquisition module
Control module
Nanoscale high-resolution imaging
Flexible mode combination and switching for liquid and solid samples
Autonomous supply chain with responsive service support
Module Advantages
Scanning Module
- Nanoscale 3D precision imaging and positioning
- Shielding enclosure suppresses noise interference
- Convenient probe installation and sample replacement
- Optional optical lens for assisted observation
Controller Module
- FPGA-based core control chip
- High-speed parallel signal processing for rapid probe control and measurement
- Optical fiber separation reduces interference between signal acquisition and control
- Flexible structure supports more experimental configurations
Host Software
- Open configuration for experimental parameters
- Customizable scanning trajectories
- Dynamic measurement result display
Technical Parameters
Basic Performance
- Image resolution
- 512 × 512 adjustable
- Scan time
- 30 s ~ 30 min depending on scan points
- Image format
- BMP
- Scan data format
- DAT
XY Piezoelectric Ceramic Actuator
- Control accuracy
- 0.4 nm
- Linearity
- 0.02%
- Measurement range
- 100 μm × 100 μm
Z Piezoelectric Ceramic Actuator
- Control accuracy
- 0.3 nm
- Linearity
- 0.02%
- Measurement range
- 100 μm
XYZ Micro-Motor Positioning Stage
- Repeat positioning accuracy
- 0.1 μm
- Positioning range
- 15 mm × 15 mm × 15 mm
- Maximum speed
- 1.5 mm/s
Pipette Probe
- Pipette probe aperture
- ≥50 nm glass; ≥10 nm quartz
- Topography resolution
- Comparable to probe aperture