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Z744080

Sigma-Aldrich

SynLED Parallel Photoreactor 2.0

with 450 nm LEDs

Synonym(s):

SynLED photoreactor, light source

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About This Item

UNSPSC Code:
39101616
NACRES:
NC.25

AC/DC input

100 - 240 V AC, 50/60 Hz, universal plug set (included)

Quality Level

feature

capacity 16  vial(s)

parameter

450 nm spectral range

General description

SynLED Parallel Photoreactor 2.0 is the next generationphotoreactor from the widely used SynLED product line. This newly designedphotoreactor adds improved heatsink technology, stirring, and light delivery, enabling simplesmall-scale photocatalysis reaction screening and library synthesis. Highlevels of consistency across reactions and between runs is a trademark of thisportfolio.

This product is also available with 365 nm wavelength LEDs.


Features and Benefits
  • Bottom-lit LEDs (450 nm) across a 4x4 reaction block array provides consistent light intensity (320 lm) and angle (45°)
  • New heat exchange system provides consistent temperature to each parallel reaction, while ensuring quieter operation
  • Performance quartz LED cover protects LEDs from solvent and allows excellent light penetration
  • Uses 1-2 dram scintillation vials or microwave vials (O.D. of 1.7 cm or less)
  • Power supply is wall plug power supply including universal plug set
  • Compatible with IKA magnetic stirrer with round plate (Z645052)
  • Compatible with liquid scintillation vials (8 mL Wheaton, Z188719)
Learn more here: PhotocatalysisTechnology Spotlight

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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.

The application of radical chemistry towards organic synthesis is well-developed and wide-reaching, though often hampered by a dependence on toxic radical initiators.

The application of radical chemistry towards organic synthesis is well-developed and wide-reaching, though often hampered by a dependence on toxic radical initiators.

The application of radical chemistry towards organic synthesis is well-developed and wide-reaching, though often hampered by a dependence on toxic radical initiators.

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