5/3/2023 0 Comments Modules for photoflowYou can check these in your browser's security settings. For security reasons, we cannot display or modify cookies from other domains. We provide you with a list of cookies stored on your computer in our domain, so that you can check what we have stored. If you refuse cookies, we will delete all cookies set in our domain. Plugin-based architecture: new tools can be implemented as separate modules that are loaded at runtime Allows to load and edit images of arbitrary size, thanks. ![]() You are always free to unsubscribe or other cookies to get a better experience. We fully respect if you want to refuse cookies, but to avoid asking you each time again to kindly allow us to store a cookie for that purpose. But this will always ask you to accept/refuse cookies when you visit our site again. You can always block or delete cookies by changing your browser settings and block all cookies on this website forcibly. These cookies are strictly necessary to provide you with services available through our website and to use some of its features.īecause these cookies are strictly necessary to provide the website, refusing them will affect the functioning of our site. All five fReactor Photo Flow modules can be powered from a single power supply using an optional splitter lead. Designed for flexibility, you can choose how many Photo Flow modules to use on a fReactor base platform, from one to five. By placing the module over the required fReactor cell, the Photo Flow simply clips quickly into position ready for you to start your experiment. Installation of each fReactor Photo Flow module is straight forward. Integrating the efficiency of pipe-flow processing with the advanced mixing of five Continuous Stirred Tank Reactors (CSTR), fReactor delivers a versatile “plug-and-flow” setup which is well-suited to multiphasic reactions allowing chemists to explore continuous-flow processing with ease. Alternative excitation wavelength options are available upon request.Īsynt’s popular fReactor platform offers chemists an affordable entry point into the world of Flow Chemistry. This new addition to the Asynt fReactor Flow Chemistry platform has been launched with two high power LED wavelengths options (450nm / Blue and 365nm / UV) to suit most photochemical activation requirements. Specifically designed for ease of use and high operational safety, the fReactor Photo Flow delivers all the key advantages of flow photochemical reactors, over conventional batch systems, including consistent light flux, controlled exposure times and precise temperature control. However, until now, synthetic organic chemists have shied away from photochemistry because of safety concerns around ionizing UV light, and overly complex equipment. ![]() ![]() It is widely acknowledged that photocatalysis is a valuable synthetic tool for providing access to reaction pathways which would normally prove problematic or require multi-step synthetic routes using classical thermal or chemical activation methods. The fReactor Photo Flow – developed by Asynt, in conjunction with the University of Leeds (UK) – provides an easy-to-use, yet powerful platform for scientists looking to explore photochemistry in Flow Chemistry applications.
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