Fluorescence imaging is the visualization of fluorescent dyes or proteins as labels for molecular processes or structures. It enables a wide range of experimental observations including the ...

The original devices that you use to capture the fluorescence distribution, that’s straight out of nuclear physics. In the mid-1960s, Leonard (Len) Herzenberg, an immunologist at Stanford University, ...

The capabilities of the shared microscopy facility include brightfield, phase contrast, and both 2-D and 3-D fluorescence imaging. The OLYMPUS BX51 research microscope is a union of Olympus infinity ...

Find example text on the Acknowledgement Page or the individual instrument pages. Fluorescence spectroscopy is a powerful, non-destructive technique widely used in biochemistry, biophysics, and ...

Scientists became the first to use a cutting-edge laser imaging technique, using it to analyze the tattoos on 1,200-year-old Peruvian mummies.

Transient absorption spectroscopy of rose bengal reveals triplet state dynamics, crucial for optimizing photosensitizers in ...

To develop the technology, the researchers built a sensor by embedding upconversion optical probes into three-dimensional ...

Understanding how tumors change their metabolism to resist treatments is a growing focus in cancer research. As cancer cells adapt to therapies, their metabolism often shifts, which can help them ...

Ikonisys Inc., a leader in advanced cell-based diagnostic solutions fully owned by ALIKO SCIENTIFIC (Ikonisys SA) (Euronext Growth Paris: ALIKO), is proud to announce the grant of a new U.S. patent by ...

The G:Box mini 6/9, a compact imaging powerhouse, is ideal for those with limited space who are looking to quantify multiple different fluorescent proteins on one blot and capture images on ...