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Laboratory applications

Ozone generators, parallel beam analyzers, and UV photochemical reactors are key laboratory equipment. Their applications span multiple research fields, providing strong support for solving complex scientific problems and promoting technological innovation.

1. Ozone Generator

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    Laboratory-grade ozone generators typically require precise control of ozone yield and concentration to meet the stringent requirements of different experimental reaction conditions.

    Environmental Science Research: Ozone generators are primarily used to simulate and study the oxidative degradation of pollutants and to develop new, efficient pollution control technologies.

    Applications in Materials Science: These primarily focus on their ability to modify material surfaces and as selective oxidation reactions in specific synthetic processes.

    Aging and Durability Testing: Ozone aging chambers measure the aging process of polymer materials such as rubber, plastic, and cables as they are exposed to atmospheric ozone during actual use.

    The key to a laboratory ozone generator is ensuring stable and accurate ozone output concentration. This avoids significant deviations between the output concentration and the set value, or significant fluctuations in concentration over long periods of operation, which can lead to poor reproducibility of experimental data.

2. Collimator (Parallel Light Beam Instrument)

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    A collimator is a precision optical instrument whose primary function is to produce a nearly ideal parallel beam. This beam can simulate light from an infinitely distant target and is crucial in optical experiments, instrument calibration, and precision measurement.

    The perfectly parallel and uniform beam output by a collimator can be used as a standard light source or reference beam for precise measurements of transmittance, reflectance, polarization properties, and other parameters of optical components (such as filters, mirrors, and polarizers).

    Maintaining the calibration accuracy and stability of a laboratory collimator is crucial.

3. UV Photochemical Reactor

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Core Function: A UV photochemical reactor is a specialized device designed for photochemical reactions (particularly those driven by UV light). It provides a controlled UV illumination environment to promote chemical substances to absorb light energy and undergo specific chemical transformations (such as molecular bond breaking and formation, isomerization, redox reactions, and polymerization).

By providing controlled UV illumination conditions to drive or catalyze specific chemical reactions, UV photochemical reactors have found widespread application in environmental remediation, chemical synthesis, materials preparation, and life science research.

Use of UV Photochemical Reactor Experimental Devices:

·Degradation of Organic Pollutants

·Advanced Oxidation Processes (AOPs)

·Organic Synthesis

·Photochemical Reactions

·Continuous Flow Photochemistry

·Photoinitiated Polymerization

·Photocrosslinking and Photocuring

·Drug Discovery and Chemical Biology

·Photochemical Probes

The key to a UV photochemical reactor lies in the stability and lifespan of the light source, as well as the ability to achieve uniform illumination, mixing, and temperature control within the reaction system. These factors directly impact reaction efficiency and reproducibility.


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