2PAM7

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

2PAM7 is an acronym for Two-Photon Activated Microscopy that uses two-photon excitation to detect fluorescence activity from molecules. A popular application of 2PAM7 is in imaging processes as it allows for visualization of cellular structures and other microscopic phenomena on a millisecond timescale. It has also been used for label-free imaging of live cells, for drug discovery, and for studying reactions at single-cell resolution.

The 2PAM7 technique works by providing two short laser pulses at a specific wavelength to stimulate two-photon excitation of the fluorescent molecule. This excitation causes the molecule to give off light that can be detected and used to study the molecule or structure of interest. 2PAM7 is especially powerful when it comes to deeper tissue imaging due to its nonlinear excitation, which allows for imaging deeper in the tissue than a traditional one-photon procedure.

2PAM7 can be effectively used in the field of microscopy, especially in the areas of biomedical imaging, drug discovery, and physiology. It is especially useful in identifying and predicting molecular behavior, which can provide insight into cellular processes and metabolism. In addition, 2PAM7 can provide images of cellular features that are physiologically important and relevant. In other words, it can be used to study cells on a more detailed level that was not previously possible.

The main advantage of the two-photon process is its short excitation duration, which allows it to image much faster than other techniques. As a result, it can detect reactions that occur in less than one millisecond. This makes 2PAM7 ideal for quickly capturing biochemical events, such as gene expression, that typically take place over long periods of time. In addition, two-photon microscopy is much less destructive than traditional one-photon microscopy, making it less damaging to samples.

2PAM7 has other advantages as well, such as improved signal-to-noise ratios and the ability to image deeper into tissue than other techniques. It is especially useful for imaging structures deep in tissue, such as sub-cellular components or even small molecules. In addition, this technique can also be used to image objects located in a different plane than the one being imaged, which makes it much more versatile.

Overall, 2PAM7 is a powerful technique that has revolutionized the field of microscopy and biomedical imaging. With its ability to detect events on millisecond timescales, image deep tissue, and visualize cellular structures, it is a valuable tool for researchers in a variety of fields. Furthermore, its low cost and short excitation time make it a valuable asset for researchers and medical professionals alike.

The specific data is subject to PDF, and the above content is for reference