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Plasmon-enhanced stimulated Raman scattering microscopy with single-molecule detection sensitivity.


ABSTRACT: Stimulated Raman scattering (SRS) microscopy allows for high-speed label-free chemical imaging of biomedical systems. The imaging sensitivity of SRS microscopy is limited to ~10?mM for endogenous biomolecules. Electronic pre-resonant SRS allows detection of sub-micromolar chromophores. However, label-free SRS detection of single biomolecules having extremely small Raman cross-sections (~10-30?cm2 sr-1) remains unreachable. Here, we demonstrate plasmon-enhanced stimulated Raman scattering (PESRS) microscopy with single-molecule detection sensitivity. Incorporating pico-Joule laser excitation, background subtraction, and a denoising algorithm, we obtain robust single-pixel SRS spectra exhibiting single-molecule events, verified by using two isotopologues of adenine and further confirmed by digital blinking and bleaching in the temporal domain. To demonstrate the capability of PESRS for biological applications, we utilize PESRS to map adenine released from bacteria due to starvation stress. PESRS microscopy holds the promise for ultrasensitive detection and rapid mapping of molecular events in chemical and biomedical systems.

SUBMITTER: Zong C 

PROVIDER: S-EPMC6872561 | biostudies-literature | 2019 Nov

REPOSITORIES: biostudies-literature

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Plasmon-enhanced stimulated Raman scattering microscopy with single-molecule detection sensitivity.

Zong Cheng C   Premasiri Ranjith R   Lin Haonan H   Huang Yimin Y   Zhang Chi C   Yang Chen C   Ren Bin B   Ziegler Lawrence D LD   Cheng Ji-Xin JX  

Nature communications 20191121 1


Stimulated Raman scattering (SRS) microscopy allows for high-speed label-free chemical imaging of biomedical systems. The imaging sensitivity of SRS microscopy is limited to ~10 mM for endogenous biomolecules. Electronic pre-resonant SRS allows detection of sub-micromolar chromophores. However, label-free SRS detection of single biomolecules having extremely small Raman cross-sections (~10<sup>-30</sup> cm<sup>2</sup> sr<sup>-1</sup>) remains unreachable. Here, we demonstrate plasmon-enhanced st  ...[more]

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