Vapourtec UV-150 Photochemical Reactor. Application notes 37-39, 41-44, 47, 48

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Vapourtec UV-150 Photochemical Reactor Application notes 37-39, 41-44, 47, 48

Bringing photochemistry to the bench - Photochemistry has a number of important applications in nature and industry. - Traditional batch photochemistry is not popular. - Problems limit its use: - Safety - Availability and complexity of equipment - Control of reaction conditions - Difficulty in scale-up.

Bringing photochemistry to the bench - The breakthrough Vapourtec UV-150 photochemical reactor makes photochemistry accessible. - Allows the full potential of photochemistry to be exploited. - Offers safe, precise, efficient, consistent and scalable photochemistry.

Unique Selling Points - Versatility - 3 different light sources provide precise wavelengths between 220 nm and 650 nm. - Reactor temperature range from -20 C to 80 C. - Safety - All light sources are fully interlocked. - Can be used in standard fume cabinet, no additional light shielding required. - Forced ventilation prevents build-up of flammable gases or vapours. - Precision - Filters in addition to optional light sources ensure precision control of wavelength. - Precision temperature control of the reactor. - Inert gas blanketing of the reactor.

Key features - Compatible with R-Series and E-Series. - 3 light sources available. - Interchangeable light sources all fit in same reactor body. - Temperature control. - Multiple gram/hour scale-up. - Easily changed reactors. - Compact, space saving design. - Optional spectrometer for real time transmission spectra. - Interlocks for safety.

Light sources 3 light sources available: - Medium pressure mercury lamp - Monochromatic LEDs - Low pressure mercury lamp.

Medium pressure mercury lamp

Medium pressure mercury lamp - High intensity medium pressure mercury lamp. - Manufactured specifically for Vapourtec. - User selectable UV power. - Wavelength filtering. - Temperature control -5 C to 80 C. - Maintained under cooled air conditions. - Allows dimmable operation without compromising lamp life or spectral output.

Selectable UV power - Selectable power between 75 W to 150 W. - Power supplied by a state-of-the-art electronic ballast. - Constant and precise output. - Output continuously monitored and can be logged using Flow Commander (R-Series). - Maximises lamp life. - Lamp life-end automatically detected. - Fault conditions detected with automatic system shut down for safety.

Temperature control - Temperature control between -5 C to 80 C. - ±1 C resolution. - Cooling provided by Vapourtec cooled gas generator. - Existing cooled gas generators (purchased with cooled tube reactor) can be used. - Temperature measured at reactor wall for most accurate temperature representation. N.B. Cooled gas generator must be purchased with medium pressure mercury lamp.

Wavelength filtering - Medium pressure mercury lamp has a broad radiant output. - Wavelengths from 220 nm to 600 nm. - Wavelength filters allow selection of only desired wavelengths to promote intended reaction. - Eliminates unwanted wavelengths that cause side reactions or decomposition of products. - Removes heating effect of mercury lamp.

Wavelength filtering - Vapourtec offers 9 wavelength filters. - Long-pass and band-pass filters available. - Filters are positioned between the lamp and reactor. - Quickly and easily changed by hand. - Medium pressure mercury lamp should not be used without a filter. - Filters reduce lamp heating effect by 40%. - Filter allowing full spectral output is available.

Wavelength filtering long-pass filters - Improve reaction selectivity by eliminating shorter wavelengths and transmitting longer wavelengths. - 5 long-pass filters available. - Commonly Pyrex or quartz. - Different materials have differing refractive indices allowing accurate wavelength filtering.

Wavelength filtering band-pass filters - 4 band-pass filters available. - Transmit only a specific wavelength band. - Eliminates both longer and shorter wavelengths. - Eliminates most of the heating effect of the lamp. - Allows lower temperatures to be used even with a medium pressure mercury lamp.

Monochromatic LEDs

LEDs - 14 specific LEDs available. - Offer precise wavelengths. - No need to filter. - Range from 365 nm to 525 nm. - -40 C to 80 C temperature range. - Interchangeable. - Efficient. - Lifetime of approx. 10,000 hours 365 nm to 525 nm

LEDs Available LEDs with the UV- 150 photochemical reactor

LEDs - For photocatalytic reactions, LEDs are the ideal choice. - Can choose an LED with a dominant wavelength to match the absorption of your photocatalyst. - Maximises throughput and minimises side reactions. Absorption spectra of the common photocatalyst TPP.

Low pressure mercury lamp

Low pressure mercury lamps - 3 lamps available. - Specific wavelength emission; 254 nm, 310 nm and 370 nm. - Provides wavelengths not achieved by medium pressure mercury or LEDs. - Do not require filters. - Low heat load. - -40 C to 80 C temperature range. - Efficient.

UV-150 Key features

Safe and accurate heat management - Reactor and lamp are housed in separate, sealed quartz chambers. - Air is circulated within each chamber to cool the lamp/ reactor and to dissipate heat. - Warmed air from each chamber is then separately exhausted from the system. - High flow rate of gas allows effective temperature control. - Dichroic mirror also removes heat from the system. - Mirror ensure more than 90% of UV energy is reflected back into the reactor.

Interlocks for safety - Safety is fundamental in the UV-150 design. - Can be safely used in a standard laboratory fume cabinet. - Light sources are completely enclosed. - Power supply is interlocked. - Power is safely and automatically disconnected if lamp becomes exposed.

Easily changed reactors - Reactors are made from a single layer of thin walled, small bore fluoropolymer tubing. - Maximises photon absorption. - Constructed in cartridges. - Can be changed in seconds. - Cartridges available in a range of volumes; 2 ml, 5 ml and 10 ml. - Smaller reactors reduce reagent consumption when optimising conditions. - User rewindable cartridges available (10 ml).

Compact design - The UV-150 is much smaller than traditional photochemical reactors. - Additionally no external recirculating chiller is required. - Occupies only one (E-Series) or two (R-Series) reactor positions. - Allows telescoped photochemical reactions. E-Series R-Series

Multiple gram/hour scale-up - Scale-up of traditional batch photochemistry is challenging. - The high power of the medium pressure mercury lamp means UV-150 photochemistry is easily scalable. - Can synthesis multiple gram/hour quantities. - The [2+2] cycloaddition of Maleimide and 1-Hexyne (replicated from literature) achieved >5 g/hour conversions. Application Note 36

Real time spectral data - Real time spectral information is a huge benefit in photochemical reactions. - An optional spectrometer allows spectral intensity, wavelengths and reactant absorption to be measured. - A fibre-optic probe conveys light to the spectrometer. - Position enables the probe to look through the reactor directly towards the lamp. - Allows the relative spectral intensity to be measured as the reaction occurs.

Applications

Applications Medium pressure mercury lamp Photochemical Transformation of methyl coumalate. - The photochemical transformation of methyl coumalate via 4π electrocyclisation is well characterised. - Medium pressure mercury lamp. - Filtering to remove wavelengths below 295 nm to prevent unwanted side reactions. The photochemical transformation of methyl coumalate to the pyrone via 4π electrocyclization. Application Note 37

Applications Medium pressure mercury lamp Photochemical Transformation of methyl coumalate. - Vapourtec UV-150 photochemical reactor with medium pressure mercury lamp and wavelength filter 3. - Allows safe and efficient continuous photochemistry. - 8 fold decrease in reaction time. - 8 fold decrease in solvent use. E-Series configuration of the continuous photochemical transformation of methyl coumalate. Application Note 37

Applications LEDs Photochemical hydrogenations of nitro compounds. - Photochemical reductions of nitro compounds are important photochemical reactions. - Nitro compounds are reduced to their corresponding aniline. - Aniline compounds are synthetically important. - Key building blocks in many synthetic steps. The photocatalysed reductions of nitro compounds to their corresponding aniline. Application Note 42

Applications LEDs Photochemical hydrogenations of nitro compounds. - Vapourtec UV-150 photochemical reactor with generation 2 LED (Gen-2) light source. - Accurate and uniform 365 nm irradiation. - Gives impressive throughput comparable to mercury light sources. - Greater efficiency and precision. Application Note 42

Applications Low pressure mercury lamp [2 + 2] photocycloaddition of maleimide and 1-hexyne. - The [2 + 2] photocycloaddition of maleimide and 1-hexyne is well established. - Precise irradiation time, temperature control and wavelength filtering are crucial. - Difficult to achieve in batch conditions. - Vapourtec UV-150 photochemical reactor allows precise control. The photocycloaddition of maleimide and 1-hexyne. Application Note 47

Applications Low pressure mercury lamp [2 + 2] photocycloaddition of maleimide and 1-hexyne. - Low pressure mercury lamp gives specific and narrow wavelength emission. - Match the specificity of LEDs but offer wavelengths below 365 nm and higher radiant power. - Little heat generation compared to medium pressure mercury lamp. Application Note 47

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