Add to ORKGInnovations in optical spectroscopy and microscopy have revolutionized our understanding in biological systems at sub-cellular levels. In this talk, I will discuss about our recent development by coupling stimulated Raman scattering (SRS) microscopy with chemical probes that could allow new subcellular bioanalysis in live cells. The introduced tags offer additional SRS contrast channel for quantification of biological contents that were previously difficult. Both physical and chemical principles underlying the optical microscopy will be presented, as well as our efforts in biomedical applications including cancer- and neuronal- metabolism
Direct imaging of metabolism in cells or multicellular organisms is important for understanding many...
Stimulated Raman scattering (SRS) describes a family of techniques first discovered and developed in...
Raman spectroscopy provides a label-free approach to identify molecules based on their intrinsic mol...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biologic...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biologic...
Innovations in novel probes have significantly push the development of new optical spectroscopy and ...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biol. sy...
Stimulated Raman scattering (SRS) microscopy has emerged in the last decade as a powerful optical im...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biol. sy...
Innovations in spectroscopy principles and microscopy technol. have significantly impacted modern bi...
Optical microscopy techniques have emerged as a cornerstone of biomedical research, capable of probi...
Innovations in light microscopy have tremendously revolutionized the way researchers study biologica...
Traditionally, molecules are analyzed in a test tube. Taking biochemistry as an example, the majorit...
This thesis explores the utilization of Stimulated Raman Scattering (SRS) microscopy as a novel imag...
Innovations in light microscopy have tremendously revolutionized the way researchers study biologica...
Direct imaging of metabolism in cells or multicellular organisms is important for understanding many...
Stimulated Raman scattering (SRS) describes a family of techniques first discovered and developed in...
Raman spectroscopy provides a label-free approach to identify molecules based on their intrinsic mol...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biologic...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biologic...
Innovations in novel probes have significantly push the development of new optical spectroscopy and ...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biol. sy...
Stimulated Raman scattering (SRS) microscopy has emerged in the last decade as a powerful optical im...
Innovations in optical spectroscopy and microscopy have revolutionized our understanding in biol. sy...
Innovations in spectroscopy principles and microscopy technol. have significantly impacted modern bi...
Optical microscopy techniques have emerged as a cornerstone of biomedical research, capable of probi...
Innovations in light microscopy have tremendously revolutionized the way researchers study biologica...
Traditionally, molecules are analyzed in a test tube. Taking biochemistry as an example, the majorit...
This thesis explores the utilization of Stimulated Raman Scattering (SRS) microscopy as a novel imag...
Innovations in light microscopy have tremendously revolutionized the way researchers study biologica...
Direct imaging of metabolism in cells or multicellular organisms is important for understanding many...
Stimulated Raman scattering (SRS) describes a family of techniques first discovered and developed in...
Raman spectroscopy provides a label-free approach to identify molecules based on their intrinsic mol...