Energy-Level Alignment and Electronic Structure of Dual-State Luminogens Thin Films

IF 2.5 4区物理与天体物理 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Physica Status Solidi-Rapid Research Letters Pub Date : 2024-04-04 DOI:10.1002/pssr.202400065

Wenjie Zhou, Yingying Li, Fulin Xie, Chengyuan Wang, Jiaxiang Yang, Qi Wang, Steffen Duhm

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Abstract

Organic dual-state emitters show high quantum yields of luminescence in both solution and the aggregated state. Alkyl side chains are frequently used to engineer solid-state structures and prominent examples are naphthalimide-functionalized cyanostilbene derivatives (NICS-X), where H-aggregation takes place for ethoxyl substitution (NICS-E), while methoxyl and butoxyl substitution (NICS-M and NICS-B) lead to the quasi-isolated Q-type structure. While this takes place for powder samples, vacuum-sublimed thin films are used, and it is shown by photoluminescence (PL) measurements that H-aggregation takes place for all three NICS derivatives. In contrast, the energy-level alignment of NICS-X films on graphite exhibits disparities as shown by photoelectron spectroscopy: pronounced disorder in NICS-B films leads to energy-level bending, while the energy levels of NICS-M and NICS-E films remain flat. In such a way, it is demonstrated that side-chain engineering of luminogens affects the short-range order (responsible for the PL) and the long-range order (responsible for the energy-level alignment) in different ways. Furthermore, the importance of a substrate (thin films vs powder) on the solid-state aggregation is highlighted.

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双态发光薄膜的能级排列和电子结构

有机双态发光体在溶液和聚集状态下都能显示出很高的发光量子产率。烷基侧链经常被用来设计固态结构，突出的例子是萘酰亚胺功能化的氰二苯乙烯衍生物（NICS-X），其中乙氧基取代（NICS-E）会发生 H 聚集，而甲氧基和丁氧基取代（NICS-M 和 NICS-B）会导致准隔离的 Q 型结构。在粉末样品中发生这种情况时，我们使用了真空升华薄膜，并通过光致发光（PL）测量表明，所有三种 NICS 衍生物都发生了 H-聚集。与此相反，光电子能谱显示石墨上的 NICS-X 薄膜的能级排列存在差异：NICS-B 薄膜中明显的无序导致能级弯曲，而 NICS-M 和 NICS-E 薄膜的能级则保持平坦。由此可见，发光剂的侧链工程会以不同的方式影响短程有序性（产生光电子能谱）和长程有序性（产生能级排列）。此外，基底（薄膜与粉末）对固态聚集的重要性也得到了强调。

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来源期刊

Physica Status Solidi-Rapid Research Letters 物理-材料科学：综合

CiteScore

5.20

自引率

3.60%

发文量

208

审稿时长

1.4 months

期刊介绍： Physica status solidi (RRL) - Rapid Research Letters was designed to offer extremely fast publication times and is currently one of the fastest double peer-reviewed publication media in solid state and materials physics. Average times are 11 days from submission to first editorial decision, and 12 days from acceptance to online publication. It communicates important findings with a high degree of novelty and need for express publication, as well as other results of immediate interest to the solid-state physics and materials science community. Published Letters require approval by at least two independent reviewers. The journal covers topics such as preparation, structure and simulation of advanced materials, theoretical and experimental investigations of the atomistic and electronic structure, optical, magnetic, superconducting, ferroelectric and other properties of solids, nanostructures and low-dimensional systems as well as device applications. Rapid Research Letters particularly invites papers from interdisciplinary and emerging new areas of research.