Introduction: The PL-SX100A multi-channel photochemical reactor can be installed with various wavelengths of light source components for photocatalytic experiments of different wavelengths. It is an ideal instrument for catalyst screening. The PL-SX100A multi-channel photocatalytic reactor can simultaneously test multiple samples, reducing the number of experiments and improving the efficiency of the experiment. It is widely used to study photochemical reactions in gas phase and liquid medium, fixed and flow systems, photocatalytic gas production, ultraviolet light, monochromatic light, visible light illumination, etc. It is suitable for rapid screening of catalysts. It has samples for analyzing reaction products and free radicals, measuring reaction kinetic constants, measuring quantum yield and other functions, environmental protection and life sciences. Features: 1. Achieve simultaneous testing of multiple samples to speed up the experiment. 2. The instrument uses a high-efficiency water circulation thermostat module to achieve a constant temperature reaction of the reaction solution (the reaction temperature can be set autonomously). 3. The monochromatic light emitted by the light source does not need to add a filter, and the light wave is relatively pure and free of clutter interference experiments. 4. The same batch of experiments can use a variety of different wavelengths of light to illuminate the sample. 5. A variety of test wavelengths are available and the output light intensity can be adjusted. 6. The light source has no heat and has a long life. 7. The reaction capacity and style of the reactor are optional. Technical Parameters: Equipment model: PL-SX100A Input electric power: 100W-200W (optional) Working voltage: AC220V 50Hz Optional illuminating dominant wavelength (A set of standard wavelengths can be arbitrarily selected): 365 nm, 375 nm, 385 nm, 395 nm, 405 nm, 410 nm, 420 nm, white light, 440 nm, 455 nm, 460 nm, 470 nm, 500 nm, 520 nm, 590 nm, 600 nm, 620 nm, 660 nm, 850 nm, 940 nm, (other wavelengths are available) Anti-interference performance: Each reaction chamber is isolated from each other, and the reaction tube is in a separate reaction space, and the multi-wavelength catalysis does not interfere with light waves. Optional reaction capacity: 10ml, 20ml, 30ml, 50ml, 80ml, 100mml Or customized (standard 20ml) Illumination intensity: adjustable (10%-100%) Number of reaction stations: 10 stations Reaction tube temperature control method: water circulation cooling (precise temperature control) Thermostatic block material: aluminum Arrangement: matrix arrangement Stirring method: magnetic stirring Dimensions: 220*290*220mm Stirring speed: 0-1500 rev / min (adjustable) Light source configuration: a wavelength or multiple wavelengths mix and match Performance of the reaction tube: Open reaction tube, (can be equipped with multi-functional closed reaction tube, which can realize photocatalytic reaction in different environments such as gas generation reaction, vacuum condition, inert gas protection, and fluid atmosphere). Reaction tube material: quartz Reaction tube sealing method: thread sealing Lamp life: >60000H Optional accessories: Circulating constant temperature water tank, single wavelength light source assembly, gas sampling needle, liquid sampling needle.
Introduction: The PL-SX100A multi-channel photochemical reactor can be installed with various wavelengths of light source components for photocatalytic experiments of different wavelengths. It is an ideal instrument for catalyst screening. The PL-SX100A multi-channel photocatalytic reactor can simultaneously test multiple samples, reducing the number of experiments and improving the efficiency of the experiment. It is widely used to study photochemical reactions in gas phase and liquid medium, fixed and flow systems, photocatalytic gas production, ultraviolet light, monochromatic light, visible light illumination, etc. It is suitable for rapid screening of catalysts. It has samples for analyzing reaction products and free radicals, measuring reaction kinetic constants, measuring quantum yield and other functions, environmental protection and life sciences.