Stimulated Raman Photothermal Microscopy towards Ultrasensitive Chemical Imaging.

Zhu, Yifan; Ge, Xiaowei; Ni, Hongli; Yin, Jiaze; Lin, Haonan; Wang, Le; Tan, Yuying; Prabhu Dessai, Chinmyee Vallabh; Li, Yueming; Teng, Xinyan; Cheng, Ji-Xin

Zhu, Yifan; Ge, Xiaowei; Ni, Hongli; Yin, Jiaze; Lin, Haonan; Wang, Le; Tan, Yuying; Prabhu Dessai, Chinmyee Vallabh; Li, Yueming; Teng, Xinyan; Cheng, Ji-Xin.

bioRxiv ; 2023 Sep 07.

Article en En | MEDLINE | ID: mdl-36945642

RESUMEN

Stimulated Raman scattering (SRS) microscopy has shown enormous potential in revealing molecular structures, dynamics and coupling in a complex system. However, the bond-detection sensitivity of SRS microscopy is fundamentally limited to milli-molar level due to the shot noise and the small modulation depth in either pump or Stokes beam4. Here, to overcome this barrier, we revisit SRS from the perspective of energy deposition. The SRS process pumps molecules to their vibrational excited states. The thereafter relaxation heats up the surrounding and induces a change in refractive index. By probing the refractive index change with a continuous wave beam, we introduce stimulated Raman photothermal (SRP) microscopy, where a >500-fold boost of modulation depth is achieved on dimethyl sulfide with conserved average power. Versatile applications of SRP microscopy on viral particles, cells, and tissues are demonstrated. With much improved signal to noise ratio compared to SRS, SRP microscopy opens a new way to perform vibrational spectroscopic imaging with ultrahigh sensitivity and minimal water absorption.

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: BioRxiv Año: 2023 Tipo del documento: Article Pais de publicación: Estados Unidos

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