Titlebook: Basics of Flow Microreactor Synthesis; Jun-ichi Yoshida Book 2015 The Author(s) 2015 Flash Chemistry.Flow Chemistry.Flow Microreactor.Micr

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Controlling Residence Time,n is slow, a flow reactor is needed for a fast reaction (high-resolution reaction time control). Because the reaction rate depends on temperature, the temperature–residence time map, which can be obtained by the quench-flow method at different temperatures, is effective in optimizing the flow reacti

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Controlling Isomerization by High-Resolution Reaction Time Control,f a product derived from the intermediate that has yet to be isomerized. This concept basically can be applied to positional isomers and stereoisomers. In particular, this concept is useful in asymmetric synthesis in which epimerization of an optically active intermediate can be suppressed to allow

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P. Musmade,N. Vadera,G. Subramaniann is slow, a flow reactor is needed for a fast reaction (high-resolution reaction time control). Because the reaction rate depends on temperature, the temperature–residence time map, which can be obtained by the quench-flow method at different temperatures, is effective in optimizing the flow reacti

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2191-5407 ective of chemical reactions departing from conventional flaThis book provides in a concise form the principles and applications of flow microreactors in organic and polymer synthesis. Recently, it became possible to conduct chemical reactions in a flow reactor in laboratory synthesis. The flow micr

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Hideki Hoshiro,Ryokei Endo,Forrest E. Sloanep chemical synthesis much more efficient. Impact of flow microreactor chemistry in polymer synthesis is remarkable, because of superior controllability of molecular weight and molecular weight distribution.

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