Technology

Enables real-time analysis of live cells and detection of minute changes

Conventional point-scanning methods require laser scanning one point at a time, which means that wide-area Raman imaging requires time and highly precise mechanical control.
This technology achieves wide-area Raman imaging several tens of times faster by scanning a laser beam spread out in a line.
This enables real-time visualization of the state of cells and tissues as they change over time, making it possible to map time-dependent changes in drug responses and metabolic differences between cells.

Providing solutions

The spectra obtained from Raman spectroscopy are vast and complex, and accurate interpretation requires a high level of expertise.
Our members have been involved in Raman spectroscopy for about 20 years, and have accumulated analytical experience in many fields, including biology, materials, and chemistry. We provide comprehensive support from experiment design to report creation.

Our greatest strength is that we go beyond simply providing equipment and performing measurements; we also offer essential "meaningful data interpretation."

Screening enables efficient evaluation and rapid decision-making

Conventional Raman instruments mainly measure one sample at a time, and processing multiple samples requires time and effort.
Thanks to the unique optical design of this device, it is possible to acquire Raman signals from up to 96 points simultaneously, achieving a throughput 100 times greater than conventional models.
This will enable both time and cost savings in drug discovery screening, quality evaluation of cell cultures, and simultaneous comparison of food ingredients.

By applying core technology, the number of measurement points can be increased or decreased, and the layout can be freely designed.