Recent Progress in Continuous-Flow Hydrogenation

Tao Yu; Jiao Jiao; Peidong Song; Wenzheng Nie; Chunhai Yi; Qian Zhang; Pengfei Li

doi:10.1002/cssc.202000778

Recent Progress in Continuous-Flow Hydrogenation

Tao Yu
, Jiao Jiao
, Peidong Song
, Wenzheng Nie
, Chunhai Yi
, Qian Zhang
, Pengfei Li

Research output: Contribution to journal › Review article › peer-review

75 Scopus citations

Abstract

To achieve a safe, efficient, and sustainable (even fully automated) production for the continuous-flow hydrogenation reactions, which is among the most often used reactions in chemical synthesis, new catalyst types and immobilization methods as well as flow reactors and technologies have been developed over the last years; in addition, these approaches have been combined with new and transformational technologies in other fields such as artificial intelligence. Thus, attention from academic and industry practitioners has increasingly focused on improving the performance of hydrogenation in flow mode by reducing the reaction times, increasing selectivities, and achieve safe operation. This Minireview aims to summarize the most recent research results on this topic with focus on the advantages, current limitations, and future directions of flow chemistry.

Original language	English
Pages (from-to)	2876-2893
Number of pages	18
Journal	ChemSusChem
Volume	13
Issue number	11
DOIs	https://doi.org/10.1002/cssc.202000778
State	Published - 8 Jun 2020

Keywords

continuous flow
heterogeneous catalysis
homogeneous catalysts
hydrogenation
multistep

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10.1002/cssc.202000778

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title = "Recent Progress in Continuous-Flow Hydrogenation",

abstract = "To achieve a safe, efficient, and sustainable (even fully automated) production for the continuous-flow hydrogenation reactions, which is among the most often used reactions in chemical synthesis, new catalyst types and immobilization methods as well as flow reactors and technologies have been developed over the last years; in addition, these approaches have been combined with new and transformational technologies in other fields such as artificial intelligence. Thus, attention from academic and industry practitioners has increasingly focused on improving the performance of hydrogenation in flow mode by reducing the reaction times, increasing selectivities, and achieve safe operation. This Minireview aims to summarize the most recent research results on this topic with focus on the advantages, current limitations, and future directions of flow chemistry.",

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T1 - Recent Progress in Continuous-Flow Hydrogenation

AU - Yu, Tao

AU - Jiao, Jiao

AU - Song, Peidong

AU - Nie, Wenzheng

AU - Yi, Chunhai

AU - Zhang, Qian

AU - Li, Pengfei

PY - 2020/6/8

Y1 - 2020/6/8

N2 - To achieve a safe, efficient, and sustainable (even fully automated) production for the continuous-flow hydrogenation reactions, which is among the most often used reactions in chemical synthesis, new catalyst types and immobilization methods as well as flow reactors and technologies have been developed over the last years; in addition, these approaches have been combined with new and transformational technologies in other fields such as artificial intelligence. Thus, attention from academic and industry practitioners has increasingly focused on improving the performance of hydrogenation in flow mode by reducing the reaction times, increasing selectivities, and achieve safe operation. This Minireview aims to summarize the most recent research results on this topic with focus on the advantages, current limitations, and future directions of flow chemistry.

AB - To achieve a safe, efficient, and sustainable (even fully automated) production for the continuous-flow hydrogenation reactions, which is among the most often used reactions in chemical synthesis, new catalyst types and immobilization methods as well as flow reactors and technologies have been developed over the last years; in addition, these approaches have been combined with new and transformational technologies in other fields such as artificial intelligence. Thus, attention from academic and industry practitioners has increasingly focused on improving the performance of hydrogenation in flow mode by reducing the reaction times, increasing selectivities, and achieve safe operation. This Minireview aims to summarize the most recent research results on this topic with focus on the advantages, current limitations, and future directions of flow chemistry.

KW - continuous flow

KW - heterogeneous catalysis

KW - homogeneous catalysts

KW - hydrogenation

KW - multistep

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M3 - 文献综述

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Recent Progress in Continuous-Flow Hydrogenation

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Keywords

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