结构，形态，热和高荧光对称功能化苝二亚胺的光物理见解。

IF 3.1 4区化学 Q2 BIOCHEMICAL RESEARCH METHODS

Journal of Fluorescence Pub Date : 2025-09-18 DOI:10.1007/s10895-025-04539-w

Merve Zurnaci

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引用次数: 0

摘要

苝酰二亚胺（PDI）衍生物因其高荧光产率、优异的电学和热学性能以及广泛的π共轭体系而在有机电子学和光电子学领域引起了广泛的关注。本研究合成并详细表征了一种新的高荧光对称苝二亚胺衍生物。利用FT-IR、¹H NMR、¹³C NMR和LC-MS/MS等波谱技术分析了合成化合物的结构性质，并通过扫描电子显微镜（SEM）对其形貌进行了表征。热稳定性评价采用热重分析（TGA）。对合成的PDI衍生物的光物理性质进行了评价，发现其在350 nm和536 nm处有最大吸收，在566 nm处有最大发射，在DMSO介质中的量子产率为0.38，这是由于其高度π共轭结构。此外，通过荧光显微镜研究了该化合物的固态荧光性质。这些发现有助于开发下一代荧光材料，展示了它们在光电子和先进光子技术中的应用潜力。

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Structural, Morphological, Thermal, and Photophysical Insights into a Highly Fluorescent Symmetrically Functionalized Perylene Diimide.

Perylene diimide (PDI) derivatives have garnered significant attention in organic electronics and optoelectronics due to their high fluorescence yields, exceptional electrical and thermal properties, and extensive π-conjugated systems. This study synthesized and characterized a new highly fluorescent symmetrical perylene diimide derivative in detail. The structural properties of the synthesized compound were analyzed using spectroscopic techniques (FT-IR, ¹H NMR, ¹³C NMR, and LC-MS/MS), while its morphology was examined via scanning electron microscopy (SEM). Thermal stability was evaluated using thermogravimetric analysis (TGA). The photophysical properties of the synthesized PDI derivative were assessed, revealing absorption maxima at 350 nm and 536 nm, along with an emission maximum at 566 nm and 0.38 quantum yield in a DMSO medium, attributed to its highly π-conjugated structure. Additionally, the solid-state fluorescence properties of the compound were investigated through fluorescence microscopy. These findings contribute to developing next-generation fluorescent materials, demonstrating their potential for applications in optoelectronics and advanced photonic technologies.

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来源期刊

Journal of Fluorescence 化学-分析化学

CiteScore

4.60

自引率

7.40%

发文量

203

审稿时长

5.4 months

期刊介绍： Journal of Fluorescence is an international forum for the publication of peer-reviewed original articles that advance the practice of this established spectroscopic technique. Topics covered include advances in theory/and or data analysis, studies of the photophysics of aromatic molecules, solvent, and environmental effects, development of stationary or time-resolved measurements, advances in fluorescence microscopy, imaging, photobleaching/recovery measurements, and/or phosphorescence for studies of cell biology, chemical biology and the advanced uses of fluorescence in flow cytometry/analysis, immunology, high throughput screening/drug discovery, DNA sequencing/arrays, genomics and proteomics. Typical applications might include studies of macromolecular dynamics and conformation, intracellular chemistry, and gene expression. The journal also publishes papers that describe the synthesis and characterization of new fluorophores, particularly those displaying unique sensitivities and/or optical properties. In addition to original articles, the Journal also publishes reviews, rapid communications, short communications, letters to the editor, topical news articles, and technical and design notes.