Add to ORKGAbstract. Two-photon excitation microscopy has the potential as an e#ective, non-invasive, imaging tool for in vivo examination of human deep tissue structure at the subcellular level. By using infrared photons as the excitation source in two-photon microscopy, a significant improvement in penetration depth can be achieved because of the much lower tissue absorption coe$cient and reduced scattering coe$cient in the infrared wavelengths as compared to ultraviolet light. Two-photon absorption occurs primarily at the focal point and provides the physical basis for optical sectioning. Multi-photon excitation microscopy at 730 nm was used to image in vivo human skin autofluorescence from the surface to a depth of about 100 ìm. The spectroscopic ...
International audienceWe recorded multiphoton images of human skin biopsies using endogenous sources...
Two-photon fluorescence microscopy allows three-dimensional imaging of biological specimens in vivo....
International audienceWe recorded one-photon excited fluorescence (1PEF) and two-photon excited fluo...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
Two-photon excitation microscopy has the potential as an effective, noninvasive, diagnostic tool for...
Multiphoton excitation microscopy at 730 nm and 960 nm was used to image in vivo human skin autofluo...
Two-photon imaging of human skin using ultra short laser pulses can be used to obtain information ab...
Two-photon optical biopsy has been performed in human and mouse skin. Both cellular and extracellula...
The confocal laser scanning microscopy and two-photon microscopy was implemented based on a single l...
Spectral resolved tissue imaging has a broad range of biomedical applications such as the minimally ...
Two-photon excitation fluorescence microscopy allows in vivo high-resolution imaging of human skin s...
This thesis is based on the application of non-linear optical microscopy and spectroscopy techniques...
<p>(A) Single-photon (SP, top image; excitation at 495 nm) and two-photon imaging (MP, bottom image;...
Multiphoton microscopy techniques find a unique niche in intravital microscopy where whole animals c...
Two-photon excitation fluorescence microscopy allows in vivo high-resolution imaging of human skin s...
International audienceWe recorded multiphoton images of human skin biopsies using endogenous sources...
Two-photon fluorescence microscopy allows three-dimensional imaging of biological specimens in vivo....
International audienceWe recorded one-photon excited fluorescence (1PEF) and two-photon excited fluo...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
Two-photon excitation microscopy has the potential as an effective, noninvasive, diagnostic tool for...
Multiphoton excitation microscopy at 730 nm and 960 nm was used to image in vivo human skin autofluo...
Two-photon imaging of human skin using ultra short laser pulses can be used to obtain information ab...
Two-photon optical biopsy has been performed in human and mouse skin. Both cellular and extracellula...
The confocal laser scanning microscopy and two-photon microscopy was implemented based on a single l...
Spectral resolved tissue imaging has a broad range of biomedical applications such as the minimally ...
Two-photon excitation fluorescence microscopy allows in vivo high-resolution imaging of human skin s...
This thesis is based on the application of non-linear optical microscopy and spectroscopy techniques...
<p>(A) Single-photon (SP, top image; excitation at 495 nm) and two-photon imaging (MP, bottom image;...
Multiphoton microscopy techniques find a unique niche in intravital microscopy where whole animals c...
Two-photon excitation fluorescence microscopy allows in vivo high-resolution imaging of human skin s...
International audienceWe recorded multiphoton images of human skin biopsies using endogenous sources...
Two-photon fluorescence microscopy allows three-dimensional imaging of biological specimens in vivo....
International audienceWe recorded one-photon excited fluorescence (1PEF) and two-photon excited fluo...