Influencing Optical and Charge Transport Properties by Controlling the Molecular Interactions of Merocyanine Thin Films

IF 4.6 1区化学 Q1 CHEMISTRY, ORGANIC

Organic Chemistry Frontiers Pub Date : 2025-01-14 DOI:10.1039/d4qo02088j

Klaus Meerholz, Lukas Böher, Philipp Weitkamp, Thorsten Limböck, Nora Gildemeister, Daniele Fazzi, Manuela Schiek, Ruth Bruker, Roland Schaefer, Dirk Hertel, Klas Lindfors

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Abstract

In amorphous organic semiconductors, charge transport typically takes place via slow hopping processes, but it is known that molecular aggregation can lead to enhanced exciton and charge transport through coupling of the transition dipole moments. In this work, we investigate the optical, morphological, and electronic properties of thin films of a merocyanine dye, which aggregates easily due to its dipolar character. Firstly, in spin-coated thin films the degree of aggregation of can be tuned by thermal annealing, leading to strong spectral shift alongside with strong Davydov splitting of > 800 meV. At the same time, the mobility increases by approximately three orders of magnitude. We combine variable angle spectroscopic ellipsometry and polarization-resolved absorption spectroscopy with density functional theory to demonstrate that the aggregated molecules are oriented in an upright, standing configuration (“tip-on”) relative to the substrate surface. This arrangement involves a co-facial orientation of the molecular pi-systems, which is advantageous for lateral charge transport. Secondly, by utilizing highly oriented pyrolytic graphite as an ordered substrate and low-rate vacuum deposition, we are able to template the growth of the merocyanine layer and to substantially improve the in-plane morphological order. By combining atomic force microscopy and photoluminescence microspectroscopy we observe large oriented domains of 100s of µm2 in size, emitting linearly polarized light, whereby maintaining the edge-on molecular arrangement. This promises a further significant enhancement of lateral charge carrier mobility.

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通过控制Merocyanine薄膜的分子相互作用影响其光学和电荷输运性质

在非晶有机半导体中，电荷传输通常通过慢跳变过程进行，但已知分子聚集可以通过跃迁偶极矩的耦合导致激子和电荷传输增强。在这项工作中，我们研究了一种merocyanine染料薄膜的光学、形态和电子性质，这种染料由于其偶极性而容易聚集。首先，在自旋涂层薄膜中，可以通过热退火来调节聚集体的程度，从而导致强的光谱位移和强的>的Davydov分裂；800伏。同时，流动性增加了大约三个数量级。我们将变角光谱椭偏和偏振分辨吸收光谱与密度泛函理论结合起来，证明聚集的分子相对于衬底表面呈直立、站立的构型（“尖端”）。这种排列涉及分子pi系统的共面取向，这有利于横向电荷传输。其次，利用高取向的热解石墨作为有序的衬底和低速率的真空沉积，我们能够模板化merocyanine层的生长，并大大改善了平面内的形态秩序。通过结合原子力显微镜和光致发光显微光谱学，我们观察到大小为100 μ m2的大取向畴，发射线偏振光，从而保持分子的边缘排列。这有望进一步显著增强横向电荷载流子迁移率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Organic Chemistry Frontiers CHEMISTRY, ORGANIC-

CiteScore

7.90

自引率

11.10%

发文量

686

审稿时长

1 months

期刊介绍： Organic Chemistry Frontiers is an esteemed journal that publishes high-quality research across the field of organic chemistry. It places a significant emphasis on studies that contribute substantially to the field by introducing new or significantly improved protocols and methodologies. The journal covers a wide array of topics which include, but are not limited to, organic synthesis, the development of synthetic methodologies, catalysis, natural products, functional organic materials, supramolecular and macromolecular chemistry, as well as physical and computational organic chemistry.