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Fly-by-Wire Chemistry

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Fly-by-Wire Chemistry
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9
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CC Attribution - NoDerivatives 4.0 International:
You are free to use, copy, distribute and transmit the work or content in unchanged form for any legal purpose as long as the work is attributed to the author in the manner specified by the author or licensor.
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Release Date2017
LanguageEnglish

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Abstract
Interview with Lee Cronin, University of Glasgow, UK, recorded at the BEILSTEIN OPEN SCIENCE SYMPOSIUM (22 – 24 May 2017). Lee Cronin discusses digitizing chemistry with Carsten Kettner. Lee describes his ideas for digitizing the practical process of making molecules, by converting the synthesis information into a code which then can be used by other chemists or automated systems to playback the process and produce the molecule. By automating the parts of chemistry research that are repetitive and error prone we can free up time for researchers to allow them to be more creative and productive. Digitization will also enable chemists to make molecules that they currently are unable to make, give better reproducibility, speed up many processes and lead to more discoveries. Lee’s dream is to make complex molecules from a set of reactions using a small number of lines of synthetic code. This requires a programming approach to digitizing chemistry and will enable reactions that were previously regarded as too messy, to become optimized by robots to work using “fly-by-wire” chemistry. In biology robots are routinely used, in chemistry this is more unusual. In Lee’s opinion this is due to various factors including: cultural, safety, affordability, and flexibility (chemists are more flexible than robots). To make the most of automation, chemists need to apply a more uniform approach to their work, but this apparent limitation will allow them to do more and enable them to exchange the practical process of making molecules more efficiently. Digitization will enable personalized medicine, allow the global access to medicines, drive customization and innovation, and help discover new molecules that may have profound importance.
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