Determination of Resonance Raman Cross-Sections for Use in Biological SERS Sensing with Femtosecond Stimulated Raman Spectroscopy
Citations Over TimeTop 10% of 2014 papers
Abstract
Surface-enhanced Raman spectroscopy (SERS) is a promising technique for in vivo bioanalyte detection, but accurate characterization of SERS biosensors can be challenging due to difficulties in differentiating resonance and surface enhancement contributions to the Raman signal. Here, we quantitate the resonance Raman cross-sections for a commonly used near-infrared SERS dye, 3,3'-diethylthiatricarbocyanine (DTTC). It is typically challenging to measure resonance Raman cross-sections for fluorescent dye molecules due to the overwhelming isoenergetic fluorescence signal. To overcome this issue, we used etalon-based femtosecond stimulated Raman spectroscopy, which is intrinsically designed to acquire a stimulated Raman signal without strong fluorescence or interference from signals resulting from other four-wave mixing pathways. Using this technique, we found that the cross-sections for most of the resonantly enhanced modes in DTTC exceed 10(-25) cm(2)/molecule. These cross-sections lead to high signal magnitude SERS signals from even weakly enhancing SERS substrates, as much of what appears to be a SERS signal is actually coming from the intrinsically strong resonance Raman signal. Our work will lead to a more accurate determination of SERS enhancement factors and SERS substrate characterization in the biologically relevant near-infrared region, ultimately leading to a more widespread use of SERS for biosensing and bioimaging applications.
Related Papers
- → UV Raman spectroscopic study on the synthesis mechanism and assembly of molecular sieves(2010)133 cited
- → [14] Raman and resonance Raman spectroscopy(1993)37 cited
- → Can One Measure Resonance Raman Optical Activity?(2021)1 cited
- → Infrared and Raman Spectroscopy of Biological Molecules : Proceedings of the NATO Advanced Study Institute held at Athens, Greece, August 22-31, 1978(1979)5 cited
- → UV resonance Raman spectroscopic identification of transition metal atoms incorporated in the framework of molecular sieves(2000)4 cited