Add to ORKGTwo-photon (2P) excitation of the second singlet (S₂) state was studied to achieve deep optical microscopic imaging in brain tissue when both the excitation (800 nm) and emission (685 nm) wavelengths lie in the "tissue optical window" (650 to 950 nm). S₂ state technique was used to investigate chlorophyll α (Chl α) fluorescence inside a spinach leaf under a thick layer of freshly sliced rat brain tissue in combination with 2P microscopic imaging. Strong emission at the peak wavelength of 685 nm under the 2P S₂ state of Chl α enabled the imaging depth up to 450 μm through rat brain tissue
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
Two-photon microscopy is a fluorescence imaging technique which provides distinct advantages in thre...
Abstract. Two-photon (2P) excitation of the second singlet (S2) state was studied to achieve deep op...
Abstract. Two-photon (2P) excitation of the second singlet (S2) state was studied to achieve deep op...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
We constructed an advanced detection system for two-photon fluorescence microscopy that allows us to...
Imaging the brain of living laboratory animals at a microscopic scale can be achieved by two-photon ...
Two-photon microscopy is a fluorescence imaging technique which provides distinct advantages in thre...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
In vivo two-photon microscopy utilizing a nonlinear optical process enables, in living mouse brains,...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
Two-photon microscopy is a fluorescence imaging technique which provides distinct advantages in thre...
Abstract. Two-photon (2P) excitation of the second singlet (S2) state was studied to achieve deep op...
Abstract. Two-photon (2P) excitation of the second singlet (S2) state was studied to achieve deep op...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
We constructed an advanced detection system for two-photon fluorescence microscopy that allows us to...
Imaging the brain of living laboratory animals at a microscopic scale can be achieved by two-photon ...
Two-photon microscopy is a fluorescence imaging technique which provides distinct advantages in thre...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
In vivo two-photon microscopy utilizing a nonlinear optical process enables, in living mouse brains,...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
International audienceImaging the brain of living laboratory animals at a microscopic scale can be a...
Two-photon microscopy is a fluorescence imaging technique which provides distinct advantages in thre...