橡胶
电荷(物理)
相变
相(物质)
材料科学
过渡(遗传学)
凝聚态物理
化学物理
化学
结晶学
物理
光电子学
量子力学
生物化学
基因
作者
Arie van der Lee,Maurizio Polentarutti,Gilles H. Roche,Olivier J. Dautel,Guillaume Wantz,Frédéric Castet,Luca Muccioli
标识
DOI:10.1021/acs.jpclett.1c03221
摘要
Accurate structural models for rubrene, the benchmark organic semiconductor, derived from synchrotron X-ray data in the temperature range of 100–300 K, show that its cofacially stacked tetracene backbone units remain blocked with respect to each other upon cooling to 200 K and start to slip below that temperature. The release of the blocked slippage occurs at approximately the same temperature as the hole mobility crossover. The blocking between 200 and 300 K is caused by a negative correlation between the relatively small thermal expansion along the crystallographic b-axis and the relatively large widening of the angle between herringbone-stacked tetracene units. DFT calculations reveal that this blocked slippage is accompanied by a discontinuity in the variation with temperature of the electronic couplings associated with hole transport between cofacially stacked tetracene backbones.
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