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Abstract
The search for safe and practical carbon monoxide (CO) surrogates is central to unlocking the full potential of carbonylation chemistry in academic settings. Herein, we propose aliphatic aldehydes as a convenient class of CO photosurrogates under photocatalyzed decarbonylative Hydrogen Atom Transfer (HAT) conditions. Compared to previously reported surrogates, whose synthesis is often a daunting task, these carbonyl compounds are inexpensive, commercially available, and already present in standard laboratory inventories. From a conceptual standpoint, this light-mediated approach overcomes a longstanding limitation in the use of aldehydes as CO surrogates, namely the reliance on expensive noble metals and prohibitive conditions to enable CO release.
Supplementary materials
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Supporting Information
Description
Detailed description of experimental procedures, kinetic studies, complete characterization of synthesized compounds, copy of NMR spectra.
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