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Chemical Modifications Suppress Anharmonic Effects in the Lattice Dynamics of Organic Semiconductors

Maor Asher, Rémy Jouclas, Marco Bardini, Yael Diskin‐Posner, Nitzan Kahn, Roman Korobko, Alan R. Kennedy, Lygia S. de Moraes, Guillaume Schweicher, Jie Liu, David Beljonne, Yves Geerts, Omer Yaffe

2022ACS Materials Au18 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The lattice dynamics of organic semiconductors has a significant role in determining their electronic and mechanical properties. A common technique to control these macroscopic properties is to chemically modify the molecular structure. These modifications are known to change the molecular packing, but their effect on the lattice dynamics is relatively unexplored. Therefore, we investigate how chemical modifications to a core [1]benzothieno[3,2- b ]benzothiophene (BTBT) semiconducting crystal affect the evolution of the crystal structural dynamics with temperature. Our study combines temperature-dependent polarization-orientation (PO) low-frequency Raman measurements with first-principles calculations and single-crystal X-ray diffraction measurements. We show that chemical modifications can indeed suppress specific expressions of vibrational anharmonicity in the lattice dynamics. Specifically, we detect in BTBT a gradual change in the PO Raman response with temperature, indicating a unique anharmonic expression. This anharmonic expression is suppressed in all examined chemically modified crystals (ditBu-BTBT and diC8-BTBT, diPh-BTBT, and DNTT). In addition, we observe solid–solid phase transitions in the alkyl-modified BTBTs. Our findings indicate that π-conjugated chemical modifications are the most effective in suppressing these anharmonic effects.

Topics & Concepts

AnharmonicityLattice (music)SemiconductorChemical physicsCondensed matter physicsOrganic semiconductorMaterials scienceStatistical physicsEngineering physicsPhysicsOptoelectronicsAcousticsOrganic Electronics and PhotovoltaicsOrganic and Molecular Conductors ResearchSemiconductor materials and interfaces
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