ZEISS LSM 710 ConfoCor 3
Versatile measurements in solutions and cells: concentrations, interactions, fluctuations, diffusions. ConfoCor 3 is an ideal choice for single molecule imaging applications. It measures precisely with highest sensitivity and quickly within seconds. Based on the confocal detection principle, the diffusion speed and concentration of a fluorescent labeled molecule is easily accessed in a single measurement by the correlation fun…
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Versatile measurements in solutions and cells: concentrations, interactions, fluctuations, diffusions.
ConfoCor 3 is an ideal choice for single molecule imaging applications. It measures precisely with highest sensitivity and quickly within seconds. Based on the confocal detection principle, the diffusion speed and concentration of a fluorescent labeled molecule is easily accessed in a single measurement by the correlation function.
No compromise in sensitivity
The new C-Apochromat 40x / W 1.2 (UV-VIS-IR) high numerical aperture objective guarantees a maximum collection efficiency of photons emitted by an excited molecule. These photons are detected with highest sensitivity by Avalanche photodiodes (APDs). Rely on efficient colour correction for best cross-correlation results.
Marriage of Optics and Mathematics
The confocal volume is produced by focusing the laser beam on the physically smallest possible spot usinghigh precision optics. Recorded fluctuations in fluorescence are then analyzed by a sophisticated mathematical equation, the correlation function.
Automation to enhance your comfort
ConfoCor 3 is the fully motorized and computer controlled single molecule imaging solution. This microscope enables the automation of measurement protocols. High reproducibility in your measurements, high sample throughput and delegation of routine measurements go without saying.
Fluorescence Polarization and Anisotropy Imaging with LSM 710/LSM 780
In this white paper, ZEISS describes a general method for the determination of instrumental correction factor G, for fluorescence polarization and anisotropy experiments utilizing an anisotropy standard.
Fluorescence Polarization/Anisotropy Imaging with Zeiss Microscopes
In this application note, a general method is described for the determination of the instrumental correction factor G for fluorescence polarization/anisotropy experiments utilizing an anisotropy standard.
Confocal Microscopy in Materials Science
In this webinar Sabine Lenz discusses using confocal microscopy in materials science with Torben Wulff from ZEISS Microscopy, giving examples of applications and the different microscopes used.
