Photoreactors
Photoreactors provide an all-in-one platform to consistently and reproducibly conduct photoredox catalyzed reactions. Each photochemical reactor consists of a light source and a cooling system to maintain stability of the reactants and products.
Our photoreactors provide versatile and efficient means for performing photochemical reactions from screening to scale-up, with a range of wavelengths, and options allowing multiple photocatalytic reactions to be run in parallel.
- SynLED Parallel Photoreactor 2.0 – next generation photoredox parallel synthesis
- LightOx PhotoReact 365 Photoreactor – photochemical and photobiological reactions
- Penn PhD Photoreactor M2 – user-defined parameters including temperature, light intensity, fan speed and stirring
In addition, explore our broad portfolio of photocatalysts, including acridinium, iridium, and ruthenium catalysts, visible light metal complex photoredox catalysts, and metal-free organic catalysts, for all your photoredox chemistry needs.
SynLED Parallel Photoreactor 2.0
The SynLED Parallel Photoreactor 2.0 houses a 4 x 4 reaction block lit from the bottom with either 365 nm or 450 nm wavelength LEDs. The newly designed reactor adds improved heat sink technology and a performance quartz LED cover to protect the light source from solvents while still delivering excellent light penetration. These upgrades allow even higher levels of consistency across reactions and between runs.
LightOx PhotoReact 365 Photoreactor
The benchtop LightOx PhotoReact 365 Photoreactor uses consistent, direct UV light for the catalysis of photochemical and photobiological reactions. Researchers have full control over light intensity, energy delivery rate, and time, which are monitored by sensors for rapid, reproducible results. The reactor can be used with standard size multi-well plates or single 95 mm round dishes.
Penn PhD Photoreactor M2
The Penn PhD Photoreactor is a complete photoredox catalysis reactor. This benchtop instrument includes a variable LED light source (365 to 450 nm), mechanical stirring and cooling. The reactor supports various vial sizes including gc, 4, 8, 20, and 40 mL.
Related Product Resources
- Brochure: Illuminated Synthesis
Photoredox catalysis and photoreactors enable reproducibility in your research.
- User Guide: Photoredox Catalysis
Photoredox Catalysis desk reference and user’s guide.
- Article: Visible-light Photoredox Catalysis
Photoredox chemistry is a powerful tool in organic synthesis. Find the right photoreactor for your experiment.
- Article: Nicewicz Photoredox Catalysts for Anti-Markovnikov Alkene Hydrofunctionalization
Explore our portfolio of photoexcitable acridinium salts to facilitate olefin hydrofunctionalization with complete anti-Markovnikov selectivity.
- Article: Reducing Organic Photoredox Catalysts for Visible Light-Driven Polymer and Small Molecule Synthesis
Learn more about our phenoxazine and dihydrophenazine organic photoredox catalysts for photoredox catalysis.
- Article: Scale-Up Guide: Photocatalysis Reaction
Read up on our general guidelines for scaling up photocatalysis reactions with our SynLed Parallel and Penn PhD photoreactors.
- Article: Photoredox Iridium Catalyst for Single Electron Transfer (SET) Cross-Coupling
Browse our selection of novel catalysts developed in collaboration with the Gary Molander Group for high-yielding SET reactions.
- Aldrichimica Acta 51.2
Read about the resurgence of electrochemical redox reactions in organic synthesis, conjunctive reagents in cross-coupling, and more in this issue.
- Aldrichimica Acta 52.1
Explore sustainable alternatives to precious-metal-based photoredox catalysts and titanium salalen catalysts in this issue.
- Aldrichimica Acta 54.1
Take a deep dive into preparative batch-type electrosynthesis, reductive electrosynthesis, and emerging trends in organic electrocatalysis.
Related Webinars
Watch the insightful webinar to discover the fundamentals and applications of photoredox catalysts in organic and macromolecular synthesis.
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