Z744035

Sigma-Aldrich

Penn PhD Photoreactor M2

AC/DC input

100 - 240 V AC, 50/60 Hz

feature

thermocouple type K-Type Thermocouple
(Touch Screen: 3.5” TFT LCD; 320 x 480 resolution)

reaction suitability

reaction type: Photocatalysis
reagent type: catalyst

parameter

(Variable stir bar control 100 - 2000 RPM)
0-95% RH at 10-40 °C

W × H × D

11.4 cm × 27.2 cm × 27.9 cm
4.5 in. × 10.7 in. × 11.0 in.

General description

The Penn PhD Photoreactor M2 is a benchtop instrument designed for chemists and researchers to accelerate chemical reactions using photoredox catalysis. The Photoreactor M2 combines LED illumination, mechanical stirring and cooling into one device. The user defined parameters of temperature, intensity, stir rate and time, create a valuable tool for repeatability, traceability, efficiency and consistency of results. The Photoreactor M2 addresses the potential to streamline synthetic sequences, and create valuable strategies for addressing some of the challenges of molecule construction in drug discovery.

Features and Benefits
  • Modular design allows for use with a variety of wavelengths: 450 nm (included), 420 nm (sold separately), and 365 nm (sold separately)
  • 360 degree reflective environment maximizes surface area photon capture
  • Light shield interlock prevents user exposure to harmful light rays
  • Interactive touch screen controls reaction parameters
  • Intertek ETL, CE, and CB approved
  • User defined parameters including temperature, light intensity, fan speed and stirring
  • Auto stop, pause and reset options
  • Supports vial sizes gc, 4, 8, 20, 40 ml
  • Temp feedback using a k-type thermocouple


Photocatalysis Technology Spotlight

Certificate of Analysis

Certificate of Origin

Articles
Csp2- and Csp-hybridized coupling reactions are established catalytic approaches. However, multi-step Csp3- and Csp2-coupling reactions of boronic acids and related derivatives are still limited by ineffective two-electron transmetalation reactions.
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The application of radical chemistry towards organic synthesis is well-developed and wide-reaching, though often hampered by a dependence on toxic radical initiators.
Read More
While Markovnikov alkene reactivity is very well developed and utilized commonly in the synthesis of commodity and research chemicals, catalytic access to the anti-Markovnikov-selective adducts is a much less-developed endeavor.
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Related Content
Photoredox catalysis is a powerful synthetic methodology to form challenging covalent bonds using light irradiation. It is effective for light-driven polymer and small molecule synthesis.
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Our team of scientists has experience in all areas of research including Life Science, Material Science, Chemical Synthesis, Chromatography, Analytical and many others.

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