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Abstract
N-Aryl ketenimines are established as highly reactive aza-dienophiles. Intermolecular cycloadditions are achieved upon heating in the presence of 2,5-bis(silyloxy)furans and proceed with high levels of peri-, regio-, chemo- and diastereo-selectivity. Spontaneous C–O cleavage yields oxygenated pyridone derivatives in a highly convergent and redox- neutral manner. Combined experimental and computational studies demonstrate N-aryl ketenimines to be significantly more reactive than imino dienophiles as a consequence of less distorted transition states. Derivatization studies include the development of isocyanate and cyclic ketenimine equivalents as aza-dienophiles, while extension to a one-pot aza-Diels–Alder/oxa- Diels–Alder sequence provides a three-component approach to complex fused pyridone/pyran systems.
Supplementary materials
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Supporting Information
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Experimental details, characterization data, spectra, and computational studies
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