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In this Section of the journal, the literature on continuous flow synthesis (primarily organic synthesis and functional materials) from the period of January to March 2017 is presented. All the publications are listed ordered by journal name, with a Review article appearing at the end. The range of reactions performed in flow and number of multistep flow synthesis are seen to increase rapidly.

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In this section of the journal, the literature on continuous-flow synthesis (primarily organic synthesis and functional materials) from the period of January–March 2015 is presented. All the publications are listed and ordered by journal name, with review articles grouped at the end. This time, there is no section on highlighted articles; however, from the next issue, a succinct overview of specific publications will be included in this section. From the next issue, some publications having engineering principles relevant to flow synthesis will also be included in this list with specific highlights that will give new insights on flow synthesis.

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In this section of the journal, the literature on continuous-flow synthesis (primarily organic synthesis and functional materials) from the period of April to June 2015 is presented. All the publications are listed and ordered by journal name, with a review article appearing at the end. With a few special issues on flow synthesis that would be appearing in other journals in coming months, the list of publications in this area is expected to grow rapidly towards the end of this year.

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Journal of Flow Chemistry
Authors: Amol Kulkarni and Jun-ichi Yoshida
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Journal of Flow Chemistry
Authors: Vinay Bhaya, Ramesh Joshi and Amol Kulkarni

The continuous-flow Meerwein arylation is demonstrated for a set of few aryl donors (anilines and m-aminoacetophenone) and specific radical acceptors. Homogeneous catalyst (CuBr in HBr and CuCl in HCl) was used to facilitate the reaction. The effect of parameters, viz., temperature, catalyst concentration, residence time, and concentration of the radical acceptor on the yield of the arylated product, was studied. The yield of the aryl derivative obtained by continuous-flow syntheses was always better than the respective experiments in batch mode. Flow synthesis allows easy variation in these parameters and thus allows going close to the maximum possible yields in a system where the relative rates of different reactions create a complex situation. Temperature plays a crucial role by affecting the rates as well as by governing the system homogeneity. The nitrogen bubbles generated in the reaction helped to avoid any channel blockage.

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In this Section of the journal, the literature on continuous flow synthesis (primarily organic synthesis and functional materials) from the period of April — June 2016 is presented. All the publications are listed ordered by journal name, with a Review article appearing at the end. In this quarter the number of papers on continuous flow organic synthesis is relatively less as a few special issues are forthcoming. It is interesting to observe that the number of papers on continuous flow oxidation are more than ever before!

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In this Section of the journal, the literature on continuous flow synthesis (primarily organic synthesis and functional materials) from the period of July – September 2016 is presented. All the publications are listed ordered by journal name, with 8 Review articles appearing at the end. In this quarter the number of papers on continuous flow organic synthesis is relatively more and with a few special issues planned in the coming months this number will increase significantly. There are many ‘firsts’ achieved in flow synthesis in the last quarter, but the most noticeable ones include the synthesis of Water-Stable Covalent Organic Frameworks and flow synthesis using in-situ generated chlorine!

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In this Section of the journal, the literature on continuous flow synthesis (primarily organic synthesis and functional materials) from the period of October — December 2016 is presented. All the publications are listed ordered by journal name, with two Review articles appearing at the end. In this quarter the number of papers on continuous flow organic synthesis is relatively less as a few special issues are planned in the coming months. Two contributions on machine learning for optimization in flow synthesis and the scale-up of continuous flow reactors from Eli Lilly are the real highlights of this quarter!

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In this section of the journal, the literature on continuous-flow synthesis (primarily organic synthesis and functional materials) from the period of July to September 2015 is presented. All the publications are listed and ordered by journal name, with a few review articles appearing at the end. With a few special issues related to flow synthesis and advances in organic process development, the number of publications on flow synthesis has grown steadily in this period. This also shows the growing interest of the community in adapting to flow synthesis.

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