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ALDKIT001

Sigma-Aldrich

Aldrich® Micro Photochemical Reactor, blue LED lights

AC/DC input 100 V / 240 V AC, universal plug set

Synonym(s):

Micro photochemical reactor

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About This Item

UNSPSC Code:
41106514
NACRES:
NC.25

AC/DC input

(US/UK/Australia /Scandanavia AC interchangable input plugs)

feature

capacity 16  vial(s)

parameter

435-445 nm spectral range

General description

This newly designed apparatus enables researchers to process up to 16 samples at once. Safe LED light provides the energy needed for the photoreactions.

Features and Benefits

  • Aluminum sample base with riser feet holds up to 16 samples and sits atop a magnetic stirrer (5 X 7 plate size or larger recommended but not included)
  • LED light ring is IP68 double density 12vdc water proof blue, 435-445 nm
  • Uses 4 mL sample vials with either PTFE lined solid top caps or holed caps with PTFE face rubber septa (purchase separately)
  • Power supply is wall plug power supply 500 mA 5-6 watts
  • Use with stir bars Z118850 (10 x 3 mm)
  • Use with 4 mL solid top capped vials 27138 or septum capped vials 27209-U
  • Optional purple LED light ring available ALDRP2, 400-410nm. (Light is 1/2 the brightness of blue - MORE UV REACTIVE}

Legal Information

Aldrich is a registered trademark of Sigma-Aldrich Co. LLC

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Articles

Photocatalysis in organic synthesis has grown with innovative methods using visible light, contributing to new research.

This review provides a summary of recent approaches in developing green methods for visible-light-mediated reactions that operate under mild conditions and avoid the need for toxic transition-metal catalysts or harsh reaction conditions.

This article details the latest progress in synthesizing alkylsulfonyl fluorides through different approaches that utilize photoredox catalysis, electrocatalysis, transition-metal catalysis, and organocatalysis. The alkylsulfonyl fluorides thus prepared could be utilized further in sulfur(VI) fluoride exchange (SuFEx) click reactions.

Related Content

One major theme of research in the Yoon lab is the development of unique chemical transformations enabled by visible light photochemistry. A variety of transition metal photocatalysts responsive to visible light are known, and the Yoon lab has shown that their well understood photochemistry can be coupled to cycloadditions, arene oxidations, amine functionalizations, and thiol-ene reactions, among others.

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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