Add to ORKGIt is highly desirable to be able to optically probe biological activities deep inside live organisms. By employing a spatially confined excitation via a nonlinear transition, multiphoton fluorescence microscopy has become indispensable for imaging scattering samples. However, as the incident laser power drops exponentially with imaging depth due to scattering loss, the out-of-focus fluorescence eventually overwhelms the in-focal signal. The resulting loss of imaging contrast defines a fundamental imaging-depth limit, which cannot be overcome by increasing excitation intensity. Herein we propose to significantly extend this depth limit by multiphoton activation and imaging (MPAI) of photo-activatable fluorophores. The imaging contrast is dr...
Abstract Background Multiphoton microscopy (MPM) offers many advantages over conventional wide-field...
In biological imaging of fluorescent molecules, multiphoton laser scanning microscopy (MPLSM) has be...
Multifocal multiphoton microscopy (MMM) enhances imaging speed by parallelization. It is not well un...
It is highly desirable to be able to optically probe biological activities deep inside live organism...
Two-photon excited fluorescence microscopy (TPFM) offers the highest penetration depth with subcellu...
Two-photon fluorescence microscopy has become an indispensable tool for imaging scattering biologica...
AbstractMultiphoton excitation fluorescence imaging generates an optical section of sample by restri...
Two-photon fluorescence microscopy has become increasingly popular in biomedical research as it allo...
We report fast, non-scanning, wide-field two-photon fluorescence excitation with spectral and lifeti...
The benefit of high-resolution imaging provided by optical microscopy has resulted in many discoveri...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
AbstractBiological structures span many orders of magnitude in size, but far-field visible light mic...
We demonstrate, for the first time to the best of our knowledge, a significant resolution improvemen...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
With few exceptions biological tissues strongly scatter light, making high−resolution deep imaging i...
Abstract Background Multiphoton microscopy (MPM) offers many advantages over conventional wide-field...
In biological imaging of fluorescent molecules, multiphoton laser scanning microscopy (MPLSM) has be...
Multifocal multiphoton microscopy (MMM) enhances imaging speed by parallelization. It is not well un...
It is highly desirable to be able to optically probe biological activities deep inside live organism...
Two-photon excited fluorescence microscopy (TPFM) offers the highest penetration depth with subcellu...
Two-photon fluorescence microscopy has become an indispensable tool for imaging scattering biologica...
AbstractMultiphoton excitation fluorescence imaging generates an optical section of sample by restri...
Two-photon fluorescence microscopy has become increasingly popular in biomedical research as it allo...
We report fast, non-scanning, wide-field two-photon fluorescence excitation with spectral and lifeti...
The benefit of high-resolution imaging provided by optical microscopy has resulted in many discoveri...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
AbstractBiological structures span many orders of magnitude in size, but far-field visible light mic...
We demonstrate, for the first time to the best of our knowledge, a significant resolution improvemen...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
With few exceptions biological tissues strongly scatter light, making high−resolution deep imaging i...
Abstract Background Multiphoton microscopy (MPM) offers many advantages over conventional wide-field...
In biological imaging of fluorescent molecules, multiphoton laser scanning microscopy (MPLSM) has be...
Multifocal multiphoton microscopy (MMM) enhances imaging speed by parallelization. It is not well un...