2022
DOI: 10.3390/chemosensors10030091
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Zinc Donor–Acceptor Schiff Base Complexes as Thermally Activated Delayed Fluorescence Emitters

Abstract: Four new zinc(II) Schiff base complexes with carbazole electron donor units and either a 2,3-pyrazinedicarbonitrile or a phthalonitrile acceptor unit were synthesized. The donor units are equipped with two bulky 2-ethylhexyl alkyl chains to increase the solubility of the complexes in organic solvents. Furthermore, the effect of an additional phenyl linker between donor and acceptor unit on the photophysical properties was investigated. Apart from prompt fluorescence, the Schiff base complexes show thermally ac… Show more

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Cited by 7 publications
(4 citation statements)
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“…All immobilized dyes show mono-exponential TADF decays (Figure 5A for Zr( Mes BrPDP C6F5 ) 2 as an example) that are beneficial for sensing applications. This is in contrast to previously reported TADF emitters based on anthraquinones, [60] dicyanobenzenes, [60] and Zn(II) Schiff base complexes [64,65] which all showed bi-or tri-exponential decays in the immobilized form. Such behavior of the donor-acceptor dyes is attributed to existence of at least two different rotamers in the immobilized dyes since the rigid matrix prevents the dyes from rotation.…”
Section: Photophysical Propertiescontrasting
confidence: 99%
See 1 more Smart Citation
“…All immobilized dyes show mono-exponential TADF decays (Figure 5A for Zr( Mes BrPDP C6F5 ) 2 as an example) that are beneficial for sensing applications. This is in contrast to previously reported TADF emitters based on anthraquinones, [60] dicyanobenzenes, [60] and Zn(II) Schiff base complexes [64,65] which all showed bi-or tri-exponential decays in the immobilized form. Such behavior of the donor-acceptor dyes is attributed to existence of at least two different rotamers in the immobilized dyes since the rigid matrix prevents the dyes from rotation.…”
Section: Photophysical Propertiescontrasting
confidence: 99%
“…More recently, several optical thermometers have been reported using organic dyes derived from anthraquinone and dicyanobenzene, [60] platinum(II), palladium(II), and zinc benzoporphyrins, [61,62] polymers based on 1,8-naphthalimide, [63] carbon dot-based nanocomposite [43] and zinc complexes with Schiff bases. [64,65] Although the luminescence decay was shown to be strongly affected by temperature at ambient conditions (>2% K −1 ), practical usability of the state-ofthe-art systems is still limited. The challenges include moderate luminescence brightness, significant contribution of prompt fluorescence to the overall emission, bi-exponential decay in immobilized form, and often very long TADF decay times (>1 ms) which imply significant cross-talk to molecular oxygen even in case of polymer matrices with low gas permeability.…”
Section: Introductionmentioning
confidence: 99%
“…[22][23][24] However, very few reports exist documenting the use of organic TADF materials as sensors. [25][26][27] The first reported example employed a TADF compound, acridine yellow (Figure 1a), as a temperature sensor. [28] Steinegger et al subsequently reported a series of carbazole-substituted dicyanobenzene and diphenylaminesubstituted anthraquinone donor-acceptor (D-A) TADF emitters, such as compound 3 (Figure 1a), for use as oxygen and temperature sensors.…”
Section: Introductionmentioning
confidence: 99%
“…[22][23][24] However, very few reports exist documenting the use of organic TADF materials as sensors. [25][26][27] The first reported example employed a TADF compound, acridine yellow (Figure 1a), as a temperature sensor. [28] Steinegger et al subsequently reported a series of carbazolesubstituted dicyanobenzene and diphenylamine-substituted anthraquinone donor-acceptor (D-A) TADF emitters, such as compound a3 (Figure 1a), for use as oxygen and temperature sensors.…”
Section: Introductionmentioning
confidence: 99%