Souto Manuel, Gullo Maria Chiara, Cui HengBo, Casati Nicola, Montisci Fabio, Jeschke Harald O, Valentí Roser, Ratera Imma, Rovira Concepció, Veciana Jaume
Institut de Ciència de Materials de Barcelona (ICMAB-CSIC)/CIBER-BBN, Campus Universitari de Bellaterra, 08193, Bellaterra, Spain.
Current affiliation: Instituto de Ciencia Molecular (ICMol), Universidad de Valencia, c/Catedrático José Beltrán 2, 46980, Paterna, Spain.
Chemistry. 2018 Apr 11;24(21):5500-5505. doi: 10.1002/chem.201800881. Epub 2018 Mar 24.
Single-component conductors based on neutral organic radicals have received a lot of attention due to the possibility that the unpaired electron can serve as a charge carrier without the need of a previous doping process. Although most of these systems are based on delocalized planar radicals, we present here a nonplanar and spin localized radical based on a tetrathiafulvalene (TTF) moiety, linked to a perchlorotriphenylmethyl (PTM) radical by a conjugated bridge, which exhibits a semiconducting behavior upon application of high pressure. The synthesis, electronic properties, and crystal structure of this neutral radical TTF-Ph-PTM derivative (1) are reported and implications of its crystalline structure on its electrical properties are discussed. On the other hand, the non-radical derivative (2), which is isostructural with the radical 1, shows an insulating behavior at all measured pressures. The different electronic structures of these two isostructural systems have a direct influence on the conducting properties, as demonstrated by band structure DFT calculations.
基于中性有机自由基的单组分导体受到了广泛关注,因为未成对电子有可能在无需先前掺杂过程的情况下充当电荷载体。尽管这些体系大多基于离域平面自由基,但我们在此展示一种基于四硫富瓦烯(TTF)部分的非平面且自旋局域化的自由基,它通过共轭桥与高氯三苯甲基(PTM)自由基相连,在高压作用下呈现出半导体行为。本文报道了这种中性自由基TTF-Ph-PTM衍生物(1)的合成、电子性质和晶体结构,并讨论了其晶体结构对电学性质的影响。另一方面,与自由基1同构的非自由基衍生物(2)在所有测量压力下均表现出绝缘行为。如能带结构密度泛函理论计算所示,这两个同构体系不同的电子结构对导电性能有直接影响。
