Non-covalent intramolecular interactions through ligand-design promoting efficient photoluminescence from transition metal complexes

Ligand design aimed at arranging ligand entities and functional groups in order to generate non-covalent interactions, steric strain and ligand entanglement allowing to tune the electronic properties of transition metal complexes such as triplet emission energy and quantum yields. [Display omitted]...

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Veröffentlicht in:Coordination chemistry reviews Jg. 405; S. 213094
Hauptverfasser: Koshevoy, Igor O., Krause, Maren, Klein, Axel
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier B.V 15.02.2020
Schlagworte:
Ligand design
Non-covalent
Rigidity
Second coordination sphere
Transition metal complexes
Triplet emitters
Ligand design
Non-covalent
Rigidity
Transition metal complexes
Triplet emitters
Second coordination sphere
ISSN:0010-8545, 1873-3840
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Abstract Ligand design aimed at arranging ligand entities and functional groups in order to generate non-covalent interactions, steric strain and ligand entanglement allowing to tune the electronic properties of transition metal complexes such as triplet emission energy and quantum yields. [Display omitted] •Ligand design allows for turning-on of non-covalent intramolecular interactions.•H bridges, π-stacking, ligand entanglement and bulky groups promote rigidity.•Lewis acids, and bases further modify the electronic states.•Both effects allow tuning the electronic states and improve luminescence efficiency.•This review provides for the first time an overview of this approach. Ligand design allows arranging ligand entities and functional groups in order to generate a plethora of non-covalent interactions such as π stacking, H bridging, and Lewis acid-base interactions in the second coordination sphere of transition metal complexes and thus modulate the photophysical properties. In addition to these forces, steric strain and ligand entanglement can lead to massive restrictions in the molecular geometry of complexes and in consequence to high rigidity and thus high geometrical similarity of the complexes electronic ground and excited states. This similarity is one of the prerequisites for efficient photoluminescence of such complexes since it hampers the unwanted radiationless decay from the excited states. Compared with other strategies to design efficient triplet emitting complexes, the approach of intramolecular non-covalent interaction has only recently entered the stage and has thus a lot of potential. In this review we will trace this approach presenting illustrative and recent examples for suitable ligand design.
AbstractList Ligand design aimed at arranging ligand entities and functional groups in order to generate non-covalent interactions, steric strain and ligand entanglement allowing to tune the electronic properties of transition metal complexes such as triplet emission energy and quantum yields. [Display omitted] •Ligand design allows for turning-on of non-covalent intramolecular interactions.•H bridges, π-stacking, ligand entanglement and bulky groups promote rigidity.•Lewis acids, and bases further modify the electronic states.•Both effects allow tuning the electronic states and improve luminescence efficiency.•This review provides for the first time an overview of this approach. Ligand design allows arranging ligand entities and functional groups in order to generate a plethora of non-covalent interactions such as π stacking, H bridging, and Lewis acid-base interactions in the second coordination sphere of transition metal complexes and thus modulate the photophysical properties. In addition to these forces, steric strain and ligand entanglement can lead to massive restrictions in the molecular geometry of complexes and in consequence to high rigidity and thus high geometrical similarity of the complexes electronic ground and excited states. This similarity is one of the prerequisites for efficient photoluminescence of such complexes since it hampers the unwanted radiationless decay from the excited states. Compared with other strategies to design efficient triplet emitting complexes, the approach of intramolecular non-covalent interaction has only recently entered the stage and has thus a lot of potential. In this review we will trace this approach presenting illustrative and recent examples for suitable ligand design.
ArticleNumber 213094
Author Krause, Maren
Koshevoy, Igor O.
Klein, Axel
Author_xml – sequence: 1
  givenname: Igor O.
  surname: Koshevoy
  fullname: Koshevoy, Igor O.
  email: igor.koshevoy@uef.fi
  organization: Department of Chemistry, University of Eastern Finland Yliopistokatu 7, 80101 Joensuu, Finland
– sequence: 2
  givenname: Maren
  surname: Krause
  fullname: Krause, Maren
  email: maren.krause@uni-koeln.de
  organization: University of Cologne, Department of Chemistry, Institute for Inorganic Chemistry, Greinstrasse 6, D-50939 Cologne, Germany
– sequence: 3
  givenname: Axel
  surname: Klein
  fullname: Klein, Axel
  email: axel.klein@uni-koeln.de
  organization: University of Cologne, Department of Chemistry, Institute for Inorganic Chemistry, Greinstrasse 6, D-50939 Cologne, Germany
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Keywords Ligand design
Non-covalent
Rigidity
Transition metal complexes
Triplet emitters
Second coordination sphere
Language English
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Snippet Ligand design aimed at arranging ligand entities and functional groups in order to generate non-covalent interactions, steric strain and ligand entanglement...
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SubjectTerms Ligand design
Non-covalent
Rigidity
Second coordination sphere
Transition metal complexes
Triplet emitters
Title Non-covalent intramolecular interactions through ligand-design promoting efficient photoluminescence from transition metal complexes
URI https://dx.doi.org/10.1016/j.ccr.2019.213094
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