2022
DOI: 10.1021/jacs.2c09589
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π-Stacked Ion Pairs: Tightly Associated Charged Porphyrins in Ordered Arrangement Enabling Radical-Pair Formation

Abstract: π-Electronic ion pairs are of interest for fabricating electronic materials that use intermolecular interactions based on electrostatic and dispersion forces, defined as i π− i π interactions, to provide dimension-controlled assemblies. Porphyrin ions, whose charge is delocalized in the core units, are suitable for ordered arrangement and assemblies by ion pairing. Herein, charged porphyrins were found to form solid-state assemblies and solution-state stacked ion pairs according to the peripheral electron-dona… Show more

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Cited by 19 publications
(38 citation statements)
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“…Charged porphyrins, with charge in the core units, are suitable components of π-sips. Porphyrin-Au III complexes, such as 1 a + and 1 b + , [9,10] containing a tricationic d 8 metal ion are candidate π-electronic cations, whereas deprotonated meso-hydroxyporphyrins, such as 2 a À and 2 b À , [9,11,12] behave as counter π-electronic anions (Figure 1b). Various ion pairs have been formed from these charged porphyrins as π-sips in solution and solid-state assemblies.…”
Section: Introductionmentioning
confidence: 99%
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“…Charged porphyrins, with charge in the core units, are suitable components of π-sips. Porphyrin-Au III complexes, such as 1 a + and 1 b + , [9,10] containing a tricationic d 8 metal ion are candidate π-electronic cations, whereas deprotonated meso-hydroxyporphyrins, such as 2 a À and 2 b À , [9,11,12] behave as counter π-electronic anions (Figure 1b). Various ion pairs have been formed from these charged porphyrins as π-sips in solution and solid-state assemblies.…”
Section: Introductionmentioning
confidence: 99%
“…Various ion pairs have been formed from these charged porphyrins as π-sips in solution and solid-state assemblies. [9,12] In particular, the ion pair comprising cation 1 b + and anion 2 a À , activated by electron-withdrawing and electron-donating substituents, respectively, underwent electron transfer in the ground state to form the corresponding π-stacked radical pair (π-srp). [9] On the other hand, porphyrin radical pairs were also produced from 1 b + -2 a À and 1 b + -2 b À by photoexcitation of the activated and less-activated π-sips by electron transfer (Figure 1c).…”
Section: Introductionmentioning
confidence: 99%
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“…Further modifications at boron moieties have also been conducted, as seen for the catecholate complexes [e.g., 2a and 2b (Figure b)], which show less emissive properties probably caused by the intramolecular electron transfer between the core π-units and the aryl moieties around boron . The electronic states and assembly behavior of orthogonally arranged π-electronic units based on π-electronic anions can be tuned by appropriate countercations, exhibiting fascinating electronic properties . To investigate the effects of the orthogonally introduced π-electronic moieties on the physical properties and assembled structures, more π-extended systems, such as naphthalenediolates comprising the smallest acene, have been examined in this study (Figure c).…”
mentioning
confidence: 99%
“…6 The electronic states and assembly behavior of orthogonally arranged π-electronic units based on π-electronic anions can be tuned by appropriate countercations, exhibiting fascinating electronic properties. 7 To investigate the effects of the orthogonally introduced π-electronic moieties on the physical properties and assembled structures, more π-extended systems, such as naphthalenediolates comprising the smallest acene, have been examined in this study (Figure 1c). Properties and assemblies can also be modulated by the substituting positions of the π-extended systems.…”
mentioning
confidence: 99%