Litcius/Paper detail

Boron-Doped Polycyclic π-Electron Systems with an Antiaromatic Borole Substructure That Forms Photoresponsive B–P Lewis Adducts

Naoki Ando, Takuya Yamada, Hiroki Narita, Niels N. Oehlmann, Matthias Wagner, Shigehiro Yamaguchi

2021Journal of the American Chemical Society129 citationsDOI

Abstract

Heteroatom doping is a powerful strategy to alter the electronic structure of polycyclic aromatic hydrocarbons (PAHs). Especially boron doping endows PAH scaffolds with electron-accepting character and Lewis acidic centers. Herein, we report that embedding a five-membered borole ring into a polycyclic skeleton imparts the π-system with antiaromatic character and thereby induces unique properties and behavior. A series of borole-embedded π-conjugated compounds were synthesized from teraryl precursors via a borylation/intramolecular electrophilic C-H borylation sequence. The obtained compounds exhibit planar structures with distorted geometries around the boron center and form columnar slipped face-to-face π-stacked structures. Among these compounds, a pyrene-fused derivative shows an intense emission with a high quantum yield in solution. This compound also exhibits high Lewis acidity, which reflects the antiaromatic character and strained structure of the borole substructure. This compound forms a Lewis acid-base adduct even with weakly Lewis basic phosphorus-containing polycyclic π-systems. Analyzing the crystal structure of the thus-obtained adduct revealed a complex between the boron- and phosphorus-embedded π-systems with a direct B-P dative bond. This complex undergoes photodissociation in the excited state and exhibits an emission exclusively from the base-free borole-embedded π-system.

Topics & Concepts

AntiaromaticityChemistryElectrophileLewis acids and basesAdductMetalationCrystallographyPhotochemistryStereochemistryAromaticityOrganic chemistryMoleculeCatalysisOrganoboron and organosilicon chemistrySynthesis and Properties of Aromatic CompoundsLuminescence and Fluorescent Materials