PRODUCTS

SPINNING DISK CONFOCAL MICROSCOPY (SDCM)

Spinning disk confocal microscopy (SDCM) represents an alternative to LSCM. The Spinning Disk unit helps you acquire high-speed confocal images with a larger field of view than traditional confocal microscopes. Deconvolution algorithms can be applied to improve image resolution, contrast, and dynamic range for strikingly clear 3D images, even at greater observation depths. The Yokogawa CSU-W1 spinning disk unit helps you acquire high-speed confocal images with a larger field of view than traditional confocal microscopes.

VisiScope Confocal

Real-Time Confocal for wide field of view, improved image quality and high speed live cell imaging

Stimulated emission depletion (STED) microscopy

ABBERIOR

The VisiScope-Real-Time Confocal System can be either based on Yokogawa CSU-X1 or CSU-W1 scan head.

stochastic optical reconstruction microscopy (STORM)

ABBELIGHT

Stochastic Optical Reconstruction Microscopy (STORM) exploits the photoswitching properties of some fluorophores. In certain conditions, fluorophores can be sent to an intermediary state (the “dark state”) from which they randomly cycle between ON and OFF states.
In the proper chemical and excitation conditions the transition to the dark state is in the range of milliseconds to minutes and, importantly, is a completely stochastic event. As a result, when in the right chemical and excitation conditions, fluorophores start blinking randomly and in an asynchronous manner

cellTIRF

OLYMPUS

Total internal reflection fluorescence microscopy (TIRF) makes use of specific optics to produce illumination light only at the 50-100 nm range at the interface of the slide, massively reducing out of focus light and improving the ability to detect fluorescent molecules. Because of its low light intensity and high spatial resolution, it is a key technique in live-cell imaging. Designed for membrane dynamics, single molecule detection, and colocalization experiments, the IXplore TIRF microscope system offers simultaneous multicolor TIRF imaging for up to 4 colors with high stability. The Total Internal Reflection Fluorescence (TIRF) technique is the ideal method for observations of cells close to the coverslip surface.

Multiphoton Laser Scanning Microscope

OLYMPUS

Designed for deep imaging in biological specimens, the multiphoton microscope helps reveal how cells function and interact within living tissue.
Two-photon excitation microscopy (also called Multiphoton) is a fluorescence imaging technique that allows imaging of living tissue up to about one millimeter in thickness, Unlike traditional fluorescence microscopy, in which the excitation wavelength is shorter than the emission wavelength, two-photon excitation requires simultaneous excitation by two photons with longer wavelength than the emitted light. Two-photon excitation can be a superior alternative to confocal microscopy due to its deeper tissue penetration, efficient light detection, and reduced photobleaching.

Photocurrent Measuring Instruments

NANOBASE

Photocurrent measurement is currently one of the hottest research topics in the material analysis field, especially in semiconductor and solar cell development industries.

FLIPR Penta High-Throughput Cellular Screening System

Molecular Devices

Powered by a new, optional high-speed EMCCD camera and the new Peak Pro 2 software module, the new FLIPR® Penta High-Throughput Cellular Screening System allows you to measure and analyze peaks of human-derived induced pluripotent stem cells (hiPSCs), differentiated into cardiomyocytes and neurons, up to 100 times per second and quickly cherry pick events such as Early Afterdepolarization-like events (EAD-like events), fibrillation, and irregular beating.

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