Ambient Stable Zwitterionic Perylene Bisimide‐Centered Radical

Schmidt, David; Bialas, David; Würthner, Frank

doi:10.1002/anie.201408067

Cited by 98 publications

(78 citation statements)

References 29 publications

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“…To obtain organic radicals with satisfying stability, great attempts have been made to covalently modify the corresponding organic compounds. [79][80][81] Generally, organic molecules substituted with strong electronwithdrawing moieties favor the formation of stable radical anions, while those substituted with strong electron-donating moieties favor the formation of stable radical cations. In the meantime, there are also several facile ways to realize the stabilization of organic radicals through noncovalent interactions.…”

Section: Fabrication Of Supramolecularly Stabilized Organic Radicalsmentioning

confidence: 99%

Tuning the Energy Gap by Supramolecular Approaches: Towards Near‐Infrared Organic Assemblies and Materials

Song

Jiao

Wang

et al. 2015

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Near-infrared (NIR) organic materials are of great importance for both fundamental research and practical applications. While much effort has been taken to covalently design and synthesize NIR organic materials with a low energy gap, there are supramolecular approaches for tuning the energy gap to noncovalently fabricate NIR organic assemblies and materials. In this concept article, we summarize and discuss several supramolecular approaches, including the fabrication of charge transfer supramolecular complexes, the fabrication of supramolecular J-aggregates, and the fabrication of supramolecularly stabilized organic radicals. The nature of noncovalent interactions in supramolecular approaches can provide NIR organic assemblies and materials with unique properties such as reversibility, stimuli-responsiveness, recyclability, and adaptive abilities.

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Section: Fabrication Of Supramolecularly Stabilized Organic Radicalsmentioning

confidence: 99%

Tuning the Energy Gap by Supramolecular Approaches: Towards Near‐Infrared Organic Assemblies and Materials

Song

Jiao

Wang

et al. 2015

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“…We have collated a list of diverse organic neutral radicals , radical anions , radical cations and zwitterionic radicals [132][133][134][135][136] in Charts 1-3 according to the year of their report. It is to be noted that the list is not exhaustive.…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in Organic Radicals and Their Magnetism

et al. 2016

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Abstract:The review presents an overview of the organic radicals that have been designed and synthesized recently, and their magnetic properties are discussed. The π-conjugated organic radicals such as phenalenyl systems, functionalized nitronylnitroxides, benzotriazinyl, bisthiazolyl, aminyl-based radicals and polyradicals, and Tetrathiafulvalene (TTF)-based H-bonded radicals have been considered. The examples show that weak supramolecular interactions play a major role in modulating the ferromagnetic and antiferromagnetic properties. The new emerging direction of zethrenes, organic polyradicals, and macrocyclic polyradicals with their attractive and discrete architectures has been deliberated. The magnetic studies delineate the singlet-triplet transitions and their corresponding energies in these organic radicals. We have also made an attempt to collate the major organic neutral radicals, radical ions and radical zwitterions that have emerged over the last century.

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“…[11] In this regard, perylene-3,4:9,10-tetracarboxylic acid bisimides (PBIs) with an aromatic perylene core should, in principle,o ffer another promising scaffold for constructing stable functional open-shell systems.A long with other wellrecognized properties of PBIs,s uch as photostability and outstanding fluorescence behavior, [12] recent investigations on PBI derivatives have focused on their applications in photovoltaics and optoelectronic devices by virtue of their n-type semiconducting properties owing to the presence of two electron-withdrawing bisimide subunits. [13] Thec apability of these electron-deficient aromatic bisimides to form fairly stable reduced species [14] was exploited very recently for the isolation of ambient stable PBI radical anions [15] and dianions. [16] Although it is expected that the synthesis of PBI biradicals with open-shell electronic ground states should be feasible owing to the stabilizing effect of the polycyclic and electron deficient aromatic core,there has been no report on the formation and characterization of stable PBI biradicals thus far.…”

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confidence: 99%

Perylene Bisimide Radicals and Biradicals: Synthesis and Molecular Properties

et al. 2015

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Unprecedented neutral perylene-3,4:9,10-tetracarboxylic acid bisimide (PBI) radicals and biradicals were synthesized by facile chemical oxidation of 4-hydroxyaryl-substituted PBIs. Subsequent characterization by optical and magnetic spectroscopic techniques, as well as quantum chemical calculations, revealed an open-shell singlet biradical ground state for the PBI biradical OS-2(..) (〈s(2)〉=1.2191) with a relatively small singlet-triplet energy gap of 0.041 eV and a large singlet biradical character of y=0.72.

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Ambient Stable Zwitterionic Perylene Bisimide‐Centered Radical

Cited by 98 publications

References 29 publications

Tuning the Energy Gap by Supramolecular Approaches: Towards Near‐Infrared Organic Assemblies and Materials

Tuning the Energy Gap by Supramolecular Approaches: Towards Near‐Infrared Organic Assemblies and Materials

Recent Advances in Organic Radicals and Their Magnetism

Perylene Bisimide Radicals and Biradicals: Synthesis and Molecular Properties

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