The Impact of Aggregation on the Photophysics of Spiro‐Bridged Heterotriangulenes

We report on the impact of the central heteroatom on structural, electronic, and spectroscopic properties of a series of spirofluorene‐bridged heterotriangulenes and provide a detailed study on their aggregates. The in‐depth analysis of their molecular structure by NMR spectroscopy and X‐ray crystal...

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Veröffentlicht in:	Angewandte Chemie International Edition 2020-09, Vol.59 (37), p.16233-16240
Hauptverfasser:	Krug, Marcel, Wagner, Maximilian, Schaub, Tobias A., Zhang, Wen‐Shan, Schüßlbauer, Christoph M., Ascherl, Johannes D. R., Münich, Peter W., Schröder, Rasmus R., Gröhn, Franziska, Dral, Pavlo O., Barbatti, Mario, Guldi, Dirk M., Kivala, Milan
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Schlagworte:	Agglomeration Aggregates aggregation Aggregation behavior Chemical Sciences Crystallography Density functional theory density functional theory calculations Fluorescence heteropolycycles Light scattering Magnetic resonance spectroscopy Material chemistry Molecular structure Morphology NMR NMR spectroscopy Nuclear magnetic resonance or physical chemistry Photon correlation spectroscopy photophysics Scanning electron microscopy Spectrum analysis spiro compounds Superstructures Theoretical and
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creator	Krug, Marcel Wagner, Maximilian Schaub, Tobias A. Zhang, Wen‐Shan Schüßlbauer, Christoph M. Ascherl, Johannes D. R. Münich, Peter W. Schröder, Rasmus R. Gröhn, Franziska Dral, Pavlo O. Barbatti, Mario Guldi, Dirk M. Kivala, Milan
description	We report on the impact of the central heteroatom on structural, electronic, and spectroscopic properties of a series of spirofluorene‐bridged heterotriangulenes and provide a detailed study on their aggregates. The in‐depth analysis of their molecular structure by NMR spectroscopy and X‐ray crystallography was further complemented by density functional theory calculations. With the aid of extensive photophysical analysis the complex fluorescence spectra were deconvoluted showing contributions from the peripheral fluorenes and the heteroaromatic cores. Beyond the molecular scale, we examined the aggregation behavior of these heterotriangulenes in THF/H2O mixtures and analyzed the aggregates by static and dynamic light scattering. The excited‐state interactions within the aggregates were found to be similar to those found in the solid state. A plethora of morphologies and superstructures were observed by scanning electron microscopy of drop‐casted dispersions. Make a difference together: Heteroatoms were inserted into spiro‐conjugated triangulenes and the resultant structure–property relationships were explored. At the focus are the molecular and electronic structure of these compounds, their dual fluorescence (core and wings), and their aggregation behavior in solvent/antisolvent mixtures.
doi_str_mv	10.1002/anie.202003504
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subjects	Agglomeration Aggregates aggregation Aggregation behavior Chemical Sciences Crystallography Density functional theory density functional theory calculations Fluorescence heteropolycycles Light scattering Magnetic resonance spectroscopy Material chemistry Molecular structure Morphology NMR NMR spectroscopy Nuclear magnetic resonance or physical chemistry Photon correlation spectroscopy photophysics Scanning electron microscopy Spectrum analysis spiro compounds Superstructures Theoretical and
title	The Impact of Aggregation on the Photophysics of Spiro‐Bridged Heterotriangulenes
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