A Rational Design of Electrochemically and Photophysically Tunable Triarylamine Luminophores by Consecutive (Pseudo‐)Four‐Component Syntheses

Author:

Kohlbecher Regina1,Müller Thomas J. J.1ORCID

Affiliation:

1. Heinrich-Heine-Universität Düsseldorf Faculty of Mathematics and Natural Sciences Institute of Organic Chemistry and Macromolecular Chemistry Universitätstrasse 1 40225 Düsseldorf Germany

Abstract

AbstractThe concatenation of Suzuki coupling and two‐fold Buchwald‐Hartwig amination in sequentially palladium‐catalyzed consecutive multicomponent syntheses paves a concise, convergent route to diversely functionalized para‐biaryl‐substituted triarylamines (p‐bTAAs) from simple, readily available starting materials. An extensive library of p‐bTAAs permits comprehensive investigations of their electronic properties by absorption and emission spectroscopy, cyclic voltammetry, and quantum chemical calculations, which contribute to a deep understanding of their electronic structure. The synthesized p‐bTAAs exhibit tunable fluorescence from blue to yellow upon photonic excitation with quantum yields up to 98 % in solution and 92 % in the solid state. Furthermore, a pronounced bathochromic shift of the emission maxima by increasing solvent polarity indicates positive emission solvatochromism. Aggregation‐induced enhanced emission (AIEE) in dimethyl sulfoxide (DMSO)/water mixtures causes the formation of intensely blue fluorescent aggregates. Cyclic voltammetry shows reversible first and second oxidations of p‐bTAAs at low potentials, which are tunable by variation of the introduced para substituents. 3D Hammett plots resulting from the correlation of oxidation potentials and emission maxima with electronic substituent parameters emphasize the rational design of tailored p‐bTAAs with predictable electrochemical and photophysical properties.

Funder

Deutsche Forschungsgemeinschaft

Fonds der Chemischen Industrie

Publisher

Wiley

Subject

General Chemistry,Catalysis,Organic Chemistry

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