Scientists can add an extra dimension to their confocal microscopy experiments by measuring photon arrival times using fluorescence lifetime imaging methods. From improving confocal image quality to ...
Two new open-source tools are set to make fluorescence lifetime imaging microscopy—or FLIM—faster, simpler and more accessible. Developed by Ph.D. student Sofia Kapsiani in Professor Gabi Kaminski ...
A research team at the University of Tokyo has developed a new microscopy platform that can observe a previously hidden layer of biomolecular chemistry linked to weak magnetic fields. The work, led by ...
Fluorescence microscopy is a cornerstone of modern biological research, widely used to reveal cellular structures, molecular interactions, and dynamic life processes. Computational fluorescence ...
The InverTau ™ platform is a laser scanning confocal unit designed for Fluorescence Lifetime Imaging (FLIM). Fully software-controlled, it mounts seamlessly onto the side port of an inverted ...
From overcoming classical optical limits to tracking single proteins in real time, super-resolution imaging continues to ...
Researchers have developed a new two-photon fluorescence microscope that captures high-speed images of neural activity at cellular resolution. By imaging much faster and with less harm to brain tissue ...
Researchers at the Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, have developed a method for quantitative imaging of ATP levels inside living cells. The study, published in Nature ...
FLIM Microscopy maps photoluminescence lifespan in LED structures with spatial resolution. Defects caused by sidewall damage can affect LED performance and recombination efficiency over time. The ...
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