Continuous-flow generation of anhydrous diazonium species: Monolithic microfluidic reactors for the chemistry of unstable intermediates

被引:76
|
作者
Fortt, R [1 ]
Wootton, RCR [1 ]
de Mello, AJ [1 ]
机构
[1] Univ London Imperial Coll Sci & Technol, Dept Chem, Kensington SW7 2AZ, England
来源
ORGANIC PROCESS RESEARCH & DEVELOPMENT | 2003年 / 7卷 / 05期
关键词
D O I
10.1021/op025586j
中图分类号
O69 [应用化学];
学科分类号
081704 ;
摘要
Monolithic microfluidic reactors for the safe, expedient, and continuous synthesis of products involving unstable intermediates were fabricated and assessed. The formation of diazonium salts in anhydrous conditions and their subsequent in situ chlorination within microfluidic channels under hydrodynamic pumping regimes is presented. Significant enhancements in yield were observed due to enhanced heat and mass transfer in microfluidic systems. Analysis performed using off-line GC and GC-MS was compared with on-line, on-chip Raman spectroscopy for the direct determination of analytes.
引用
收藏
页码:762 / 768
页数:7
相关论文
共 12 条
  • [1] On-chip generation and reaction of unstable intermediates-monolithic nanoreactors for diazonium chemistry: Azo dyes
    Wootton, RCR
    Fortt, R
    de Mello, AJ
    [J]. LAB ON A CHIP, 2002, 2 (01): : 5 - 7
  • [2] Scalable in Situ Diazomethane Generation in Continuous-Flow Reactors
    Rossi, Emiliano
    Woehl, Pierre
    Maggini, Michele
    [J]. ORGANIC PROCESS RESEARCH & DEVELOPMENT, 2012, 16 (05) : 1146 - 1149
  • [3] Continuous-Flow Biochemical Reactors: Biocatalysis, Bioconversion, and Bioanalytical Applications Utilizing Immobilized Microfluidic Enzyme Reactors
    Hajba, Laszlo
    Guttman, Andras
    [J]. JOURNAL OF FLOW CHEMISTRY, 2016, 6 (01) : 8 - 12
  • [4] Continuous-Flow Biochemical Reactors: Biocatalysis, Bioconversion, and Bioanalytical Applications Utilizing Immobilized Microfluidic Enzyme Reactors
    Laszlo Hajba
    Andras Guttman
    [J]. Journal of Flow Chemistry, 2016, 6 : 8 - 12
  • [5] Beyond Organometallic Flow Chemistry: The Principles Behind the Use of Continuous-Flow Reactors for Synthesis
    Noel, Timothy
    Su, Yuanhai
    Hessel, Volker
    [J]. ORGANOMETALLIC FLOW CHEMISTRY, 2016, 57 : 1 - 41
  • [6] Continuous-Flow Microfluidic Electrochemical Synthesis: Investigating a New Tool for Oxidative Chemistry
    Gregory P. Roth
    Romain Stalder
    Toby R. Long
    Daryl R. Sauer
    Stevan W. Djuric
    [J]. Journal of Flow Chemistry, 2013, 3 : 34 - 40
  • [7] Continuous-Flow Microfluidic Electrochemical Synthesis: Investigating a New Tool for Oxidative Chemistry
    Roth, Gregory P.
    Stalder, Romain
    Long, Toby R.
    Sauer, Daryl R.
    Djuric, Stevan W.
    [J]. JOURNAL OF FLOW CHEMISTRY, 2013, 3 (02) : 34 - 40
  • [8] BED REACTORS FOR USE IN UNSEGMENTED CONTINUOUS-FLOW METHODOLOGIES - ANALYSIS OF INORGANIC SPECIES
    CALATAYUD, JM
    MATEO, JVG
    [J]. CHEMIA ANALITYCZNA, 1993, 38 (01): : 1 - 24
  • [9] A method for rapid reaction optimisation in continuous-flow microfluidic reactors using online Raman spectroscopic detection
    Leung, SA
    Winkle, RF
    Wootton, RCR
    deMello, AJ
    [J]. ANALYST, 2005, 130 (01) : 46 - 51
  • [10] Organomagnesium Based Flash Chemistry: Continuous Flow Generation and Utilization of Halomethylmagnesium Intermediates
    von Keutz, Timo
    Cantillo, David
    Kappe, C. Oliver
    [J]. ORGANIC LETTERS, 2020, 22 (19) : 7537 - 7541
12