Photoredox Catalysis Instrument Adds Six New Wavelengths to Enhance Research Capabilities

Acceled LLC announces today that the Photoreactor m2, an elevated benchtop instrument designed to accelerate chemical reactions for researchers and chemists using photoredox catalysis, now has six new standardized wavelength options.

PR m2 Final_ACCELED LOGOExpanding from four parameters, the new wavelengths—500nm, 530nm, 588nm, 615nm, 633nm, and 660nm—offer researchers extended versatility and control in their experiments while remaining cost-efficient.

The Photoreactor m2 is renowned for its high light intensity and standardized experiments. The m2’s modular design streamlines photoredox catalysis for light-intense applications using standardized wavelengths, enabling greater repeatability, traceability, efficiency, and consistency of results. With customizable parameters such as temperature, light intensity, and stir rate, the m2 provides researchers with control over their experimental conditions for a diverse range of uses, from proteomics to drug discovery.

New Wavelengths Enhance Research Flexibility

With the addition of the new wavelengths, the Photoreactor m2 now offers even more versatility for researchers to produce repeatable results. The new wavelengths are available with the purchase of an m2. Learn more and place your order at https://www.acceledbio.com/photoreactor-m2.

ABOUT ACCELED

The team at Acceled LLC consists of leading scientists and engineers in the field of photocatalysis technology.  Trusted by top-tier research institutions and pharmaceutical companies, they are dedicated to developing innovative products for researchers to streamline chemical reactions using photoredox catalysis. Acceled's state-of-the-art instruments are designed to address complex challenges in drug discovery, pharma research, proteomics, and basic materials science. Learn more at https://www.acceledbio.com/.


Acceled's Photoreactor m2 helps researchers standardize and accelerate their reactions. Take control of your research parameters and gain efficient, reliable data. 

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