Impact of Di- and Poly-Radical Characters on the Relative Energy of the Doubly Excited and La States of Linear Acenes and Cyclacenes

Author:

Dai Yasi1ORCID,Sancho-García Juan-Carlos2ORCID,Negri Fabrizia13ORCID

Affiliation:

1. Department of Chemistry “Giacomo Ciamician”, University of Bologna, 40126 Bologna, Italy

2. Department of Physical Chemistry, University of Alicante, 03080 Alicante, Spain

3. INSTM UdR Bologna, 40126 Bologna, Italy

Abstract

Linear and cyclic acenes are polycyclic aromatic hydrocarbons that can be viewed as building blocks of graphene nanoribbons and carbon nanotubes, respectively. While short linear acenes demonstrated remarkable efficiency in several optoelectronic applications, the longer members are unstable and difficult to synthesize as their cyclic counterparts. Recent progress in on-surface synthesis, a powerful tool to prepare highly reactive species, opens promising perspectives and motivates the computational investigations of these potentially functional molecules. Owing to their di- and poly-radical character, low-lying excited states dominated by doubly excited configurations are expected to become more important for longer members of both linear and cyclic molecules. In this work, we investigate the lowest-lying La and the doubly excited (DE) state of linear acenes and cyclacenes, with different computational approaches, to assess the influence of the di-/poly-radical characters (increasing with the molecular dimensions) on their relative order. We show that DFT/MRCI calculations correctly reproduce the crossing of the two states for longer linear acenes, while TDUDFT calculations fail to predict the correct excitation energy trend of the DE state. The study suggests a similarity in the excited electronic state pattern of long linear and cyclic acenes leading ultimately to a lowest lying dark DE state for both.

Publisher

MDPI AG

Subject

Organic Chemistry,Inorganic Chemistry,Electrochemistry,Chemistry (miscellaneous)

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