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Hyperpyramidalized alkenes with bond orders near 1.5 as synthetic building blocks

Jiaming Ding, Sarah A. French, Christina A. Rivera, Arismel Tena Meza, Dominick C. Witkowski, K. N. Houk, Neil K. Garg

2026Nature Chemistry7 citationsDOIOpen Access PDF

Abstract

Alkenes typically have trigonal planar geometries at each terminus, with favourable σ- and π-bonding leading to a bond order of ~2. Here we consider unusual alkenes that possess an extreme form of geometric distortion, termed hyperpyramidalization. In a hyperpyramidalized alkene, geometries deviate remarkably from the typical trigonal planar alkene geometry, leading to weak π-bonding and abnormal alkene bond orders approaching 1.5. Cubene and 1,7-quadricyclene, first validated in 1988 and 1979, respectively, but overlooked for decades since, are the focus of the present study. We leverage their unusually weak π-bonds in cycloadditions, enabling the construction of complex scaffolds and access to previously unrealized chemical space. The origins of the unusually low bond orders were investigated using computational methods. These efforts are expected to prompt future studies of molecules that display hyperpyramidalization or atypical bond orders.

Topics & Concepts

AlkeneChemistryPlanarBond orderMoleculeBondChemical physicsComputational chemistryChemical bondBond lengthTriple bondCrystallographySingle bondNanotechnologyMolecular geometryFocus (optics)Trigonal crystal systemWell-definedStructural motifWork (physics)Leverage (statistics)Quadruple bondDouble bondOrder (exchange)Yield (engineering)Molecular physicsPi bondStructural complexitySynthesis and Properties of Aromatic CompoundsSynthesis and characterization of novel inorganic/organometallic compoundsRadical Photochemical Reactions
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