Duncan Guthrie scite author profile

Direct activation of gaseous hydrocarbons remains a major challenge for the chemistry community. Because of the intrinsic inertness of these compounds, harsh reaction conditions are typically required to enable C(sp3)–H bond cleavage, barring potential applications in synthetic organic chemistry. Here, we report a general and mild strategy to activate C(sp3)–H bonds in methane, ethane, propane, and isobutane through hydrogen atom transfer using inexpensive decatungstate as photocatalyst at room temperature. The corresponding carbon-centered radicals can be effectively trapped by a variety of Michael acceptors, leading to the corresponding hydroalkylated adducts in good isolated yields and high selectivity (38 examples).

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Continuous Flow-Processing of Organometallic Reagents Using an Advanced Peristaltic Pumping System and the Telescoped Flow Synthesis of (E/Z)-Tamoxifen

Murray

Browne

Pastre

et al. 2013

Org. Process Res. Dev.

139

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A new enabling technology for the pumping of organometallic reagents such as n-butyllithium, Grignard reagents, and DIBAL-H is reported, which utilises a newly developed, chemically resistant, peristaltic pumping system. Several representative examples of its use in common transformations using these reagents, including metal–halogen exchange, addition, addition–elimination, conjugate addition, and partial reduction, are reported along with examples of telescoping of the anionic reaction products. This platform allows for truly continuous pumping of these highly reactive substances (and examples are demonstrated over periods of several hours) to generate multigram quantities of products. This work culminates in an approach to the telescoped synthesis of (E/Z)-tamoxifen using continuous-flow organometallic reagent-mediated transformations.

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Real-time monitoring of solid-phase peptide synthesis using a variable bed flow reactor

et al. 2019

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Continuous flow photo-initiated RAFT polymerisation using a tubular photochemical reactor

Gardiner

Hornung

Tsanaktsidis

et al. 2016

European Polymer Journal

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Automated Glycan Assembly in a Variable-Bed Flow Reactor Provides Insights into Oligosaccharide–Resin Interactions

Sletten

Danglad‐Flores

Nuño³

et al. 2020

Org. Lett.

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A pressure-based variable-bed flow reactor built for peptide synthesis and capable of real-time monitoring of resin swelling was adapted for automated glycan assembly. In the context of the solid-phase synthesis of several oligosaccharides, the coupling efficiencies, resin growth patterns, and saccharide solvation during the synthesis were determined. The presented work provides the first estimation of on-resin oligosaccharide solvation and an alternative technique to UV–vis monitoring.

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Duncan Guthrie

C(sp ³ )–H functionalizations of light hydrocarbons using decatungstate photocatalysis in flow

Continuous Flow-Processing of Organometallic Reagents Using an Advanced Peristaltic Pumping System and the Telescoped Flow Synthesis of (E/Z)-Tamoxifen

Real-time monitoring of solid-phase peptide synthesis using a variable bed flow reactor

Continuous flow photo-initiated RAFT polymerisation using a tubular photochemical reactor

Automated Glycan Assembly in a Variable-Bed Flow Reactor Provides Insights into Oligosaccharide–Resin Interactions

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Duncan Guthrie

C(sp 3 )–H functionalizations of light hydrocarbons using decatungstate photocatalysis in flow

Continuous Flow-Processing of Organometallic Reagents Using an Advanced Peristaltic Pumping System and the Telescoped Flow Synthesis of (E/Z)-Tamoxifen

Real-time monitoring of solid-phase peptide synthesis using a variable bed flow reactor

Continuous flow photo-initiated RAFT polymerisation using a tubular photochemical reactor

Automated Glycan Assembly in a Variable-Bed Flow Reactor Provides Insights into Oligosaccharide–Resin Interactions

Contact Info

Product

Resources

About

C(sp ³ )–H functionalizations of light hydrocarbons using decatungstate photocatalysis in flow