振电（苏州）科技有限公司

SEEING THE UNSEEN

See Beyond the Visible
with Coherent Raman Imaging

Advancing innovation in vibrational spectroscopic imaging at the molecular level.
SEEING THE UNSEEN

Empowering Research and Industry through Optics: Unlocking New Molecular Possibilities

The optical key to decoding molecular vibrations.
SEEING THE UNSEEN

Label-Free Insights into Essence: Shaping the Future with Optical Innovation

Resolving more possibilities through spectral imaging.

Multimodal Nonlinear Optical Microscopy
Coherent Raman Scattering Microscopy
High-Sensitivity Transient Absorption Microscopy
Two-Photon Luminescence Inspection System for Wide-Bandgap Semiconductors

- Multimodal Imaging
  
  Multimodal imaging covering coherent Raman, two-photon fluorescence, and second- harmonic generation.
- High Spatial Resolution
  
  High spatial resolution of up to 350 nm when paired with high-magnification objectives.
- Extra-large Imaging
  
  Extra-large imaging field of view up to 1050 x 1050 um with a 20X objective.
- High Spatial Resolution
  
  High spatial resolution of up to 350 nm with high-magnification objectives.
- Automated Hyperspectral
  
  Automated hyperspectral coherent Raman imaging.
- High-Sensitivity
  
  Sensitivity up to one million times higher than spontaneous Raman.
- Spatial Resolution
  
  Spatial resolution up to 350 nm.
- High-Sensitivity
  
  Sensitivity down to Delta OD 10^-7.
- High-speed Scanning
  
  High-speed scanning with a fast 2D galvanometer at up to 10 FPS.
- Non-destructive
  
  Non-destructive testing without ultrathin sample preparation, unlike TEM, enabling direct inspection of finished devices.
- High-Sensitivity
  
  Point-defect detection down to 10¹⁵ cm^-3, outperforming methods such as XRD and Raman spectroscopy.
- Three-dimensional
  
  Three-dimensional depth-resolved inspection through focal control for thick films and heterostructure analysis.

Product Details

Biomedical Research

Built on label-free, high-resolution imaging, this application captures molecular features in pathological tissues, metabolic dynamics in organoids, and structural changes in neural cells, supporting disease mechanism studies, drug screening, and regenerative medicine at the molecular level.
Synthetic Biology

Analyze metabolic heterogeneity in engineered microbes at single-cell resolution, track intracellular metabolic flux and key-enzyme spatial distribution in real time, and support pathway optimization and high-yield strain screening. Solution Details.
Plant Science

Perform non-destructive imaging of plant cell-wall components, in vivo metabolic flux, and agrochemical distribution to reveal growth-regulation mechanisms and support biomass-conversion and precision-agriculture research. Solution Details.
Environmental Science

Detect microplastics and pollutants in air and water with high sensitivity, enabling in situ quantification of composition, size, and three-dimensional distribution for environmental monitoring, source tracing, and risk assessment.
Semiconductor Industry

With nanoscale spatial resolution, the system precisely identifies defects and impurity distribution in wide-bandgap semiconductors, supporting device reliability analysis and production quality control.
New Energy

Analyze interface evolution and material metabolic dynamics in lithium batteries in situ, capture microscopic changes during charge and discharge, and support R&D and process optimization for high-energy-density, long-life batteries.
Pharmaceuticals

Quantify intracellular drug uptake, distribution, and cellular response in parallel, supporting drug component analysis, delivery mechanism research, and drug sensitivity studies for innovative therapeutics and precision medication.

Technical Strength

We continue to deepen our core capabilities in spectroscopy and imaging while building product platforms and application solutions.

Learn More

About Vibronix

Vibronix is a high-end scientific instrument company dedicated to innovation in molecular spectroscopy and to delivering advanced solutions for spectral analysis and imaging. Deeply rooted in nonlinear optics and built around coherent Raman scattering technology, Vibronix develops advanced research instruments including the UltraView multimodal nonlinear optical microscopy platform. The company is committed to the industrialization of coherent Raman instrumentation, providing high-resolution, label-free molecular imaging solutions for life sciences, materials analysis, and semiconductor inspection to drive both scientific discovery and industrial advancement.