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Tuning Nonlinear Optical Behavior by Incorporation of the Chalcogenophene into Twistacenes

Yanbing Han, Jinchong Xiao, Xingzhi Wu, Wenfa Zhou, Lei Shen, Jian Zhang, Yuxiao Wang, Xueru Zhang, Yinglin Song

2020The Journal of Physical Chemistry B13 citationsDOI

Abstract

Four chalcogenophene-fused acenes containing O, S, Se, or Te, respectively, were presented, and the chalcogenophene effect on linear and nonlinear optics was systematically investigated. Their excited-state absorption performance and two-photon absorption (TPA) capacity could be modulated by the incorporating chalcogen atoms. The experimental results showed that the heavy chalcogen facilitated the intersystem crossing resulting in the presence of the triplet state absorption for PyPSe and PyPTe, and the TPA capacity gradually increased with the atomic size of the chalcogens. The theoretical calculation inferred that their nonlinear optical performance was closely related to the contributions of the chalcogenophene component to heterotwistacenes in the final excited state. In addition, PyPTe was able to work under various laser pulses from femtoseconds to nanoseconds.

Topics & Concepts

ChalcogenIntersystem crossingExcited stateNanosecondAbsorption (acoustics)FemtosecondTwo-photon absorptionMaterials scienceNonlinear opticsLaserNonlinear systemChemistryAtomic physicsOpticsPhysicsCrystallographyQuantum mechanicsComposite materialSinglet stateNonlinear Optical Materials StudiesNonlinear Optical Materials ResearchFullerene Chemistry and Applications