Litcius/Paper detail

Bending versus Twisting Acenes – A Computational Study

Amit Manor Armon, Anjan Bedi, Veniamin A. Borin, Igor Schapiro, Ori Gidron

2021European Journal of Organic Chemistry28 citationsDOIOpen Access PDF

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are widely used in organic electronic devices. The electronic, magnetic, and optical properties of PAHs can be tuned by structural modifications to the aromatic backbone to introduce an inherent distortion from planarity, such as bending or twisting. However, it remains difficult to isolate and control the effects of such distortions. Here, we sought to understand how backbone twisting and bending affect the electronic properties of acenes, as models for larger PAHs. We found that, even when highly distorted from planarity (30° per ring), acenes maintain their aromatic character and π orbital delocalization with minor mixing of the σ and π orbitals. In addition, the energy gap between the HOMO and LUMO decreases with increasing twist, while the gap is hardly affected by bending, since the energy of both orbitals increase to a similar extent. For bent acenes in the triplet state, the spin becomes more localized with increasing bend, whereas twisting produces an evenly distributed spin delocalization. These findings can guide the synthesis of PAHs with tailored properties.

Topics & Concepts

Planarity testingDelocalized electronChemistryBent molecular geometryAtomic orbitalChemical physicsHOMO/LUMOAromaticityBendingComputational chemistryElectronic structureMolecular orbitalMolecular physicsCrystallographyMoleculeMaterials sciencePhysicsOrganic chemistryElectronQuantum mechanicsComposite materialSynthesis and Properties of Aromatic CompoundsOrganic Electronics and PhotovoltaicsFullerene Chemistry and Applications