(Renishaw: West Dundee, IL) -- Renishaw announces its latest innovation in Raman spectroscopy: the integration of time-resolved Raman spectroscopy (TRRS) into its inVia confocal Raman microscope.

This technique enables researchers and engineers to overcome the long-standing challenge of sample fluorescence, unlocking high-quality Raman spectra from samples previously deemed unmeasurable.

TRRS leverages the rapid interaction time of Raman scattered photons, occurring within picoseconds of laser excitation, to distinguish them from the slower fluorescence background. This technique employs a variety of state-of-the-art technological innovations, including a newly developed single-photon avalanche diode (SPAD) array detector, designed and manufactured by Renishaw’s long-term strategic partner, Singular Photonics. This sensor uses advanced CMOS SPAD technology and can detect individual photons and record their arrival time with 50-picosecond temporal precision.

Historically, isolating the Raman photons from the fluorescence background has been complex. But with Renishaw’s proprietary algorithms, extracting Raman data is automatic, ensuring this advanced technique is accessible to a wide range of users.

The TRRS integration enables Raman analysis of a variety of challenging samples. Visit Renishaw’s website to see examples, including food, oils and lubricants, and polymers (including those containing pigments and dyes).

Renishaw and Singular Photonics have been developing this technology, with multiple associated patents, for several years. Their approach will improve throughput, reduce artifacts, and streamline data extraction. This latest integration marks a significant milestone in Raman spectroscopy, making it possible to unlock chemical and structural information from real-world samples with high background fluorescence that were previously inaccessible.

To learn how TRRS can enhance Raman analysis, contact raman@renishaw.com or visit www.renishaw.com/raman.