2018
DOI: 10.1021/jacs.8b08244
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Concave–Convex π–π Template Approach Enables the Synthesis of [10]Cycloparaphenylene–Fullerene [2]Rotaxanes

Abstract: The cycloparaphenylenes (CPPs) are a class of strained macrocycles that until 2008 were considered beyond the reach of organic synthesis. With its cyclic array of ten para-substituted phenylene rings, [10]­CPP possesses a concave π-system that is perfectly preorganized for the strong supramolecular association of convex fullerenes such as C60. Although mechanically interlocked CPP architectures have been observed in the gas phase, the rational synthesis of bulk quantities has not been achieved yet, which is li… Show more

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Cited by 148 publications
(160 citation statements)
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References 70 publications
(146 reference statements)
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“…Our group recently achieved the synthesis of two discrete [2]rotaxanes, in which [10]CPP serves as the macrocyclic component (Figure a) . The strong concave–convex interaction between C 60 and [10]CPP was used to “trap” the macrocycle on a central fullerene bis‐adduct binding site by conducting a carefully optimized Bingel–Hirsch reaction in the final step.…”
Section: Mechanically Interlocked Architecturesmentioning
confidence: 99%
“…Our group recently achieved the synthesis of two discrete [2]rotaxanes, in which [10]CPP serves as the macrocyclic component (Figure a) . The strong concave–convex interaction between C 60 and [10]CPP was used to “trap” the macrocycle on a central fullerene bis‐adduct binding site by conducting a carefully optimized Bingel–Hirsch reaction in the final step.…”
Section: Mechanically Interlocked Architecturesmentioning
confidence: 99%
“…Unserer Gruppe gelang kürzlich die Synthese von zwei diskreten [2]Rotaxanen, bei denen [10]CPP als makrozyklische Komponente fungiert (Abbildung a) . Die starke konkav‐konvexe Wechselwirkung zwischen C 60 und [10]CPP wurde genutzt, um den Makrozyklus auf einer zentralen Fullerenbisaddukt‐Bindungsstelle mit einer sorgfältig optimierten Bingel‐Hirsch‐Reaktion letztlich “einzufangen”.…”
Section: Mechanisch Verzahnte Architekturenunclassified
“…Eindeutige Beweise für die mechanisch verzahnte Struktur von 24 wurden durch VT‐NMR‐Spektroskopie und CID‐Massenspektrometrie gewonnen. Bei der Untersuchung der beiden Rotaxanisomere durch transiente Absorptionsspektroskopie beobachteten Guldi und Mitarbeiter interessante Unterschiede zwischen der Ladungsseparations‐ (CS) und Rekombinationskinetik (CR; Abbildung a unten; [10]CPP : Elektronendonor; Fullerenbisaddukt: Elektronenakzeptor) eines “gebundenen” und eines “ungebundenen” Zustands des Nanoreifens (der Komplexisierungs‐/Dekomplexierungsprozess verläuft auf der Zeitskala des Anregungs‐Abfrage‐Experiments langsam).…”
Section: Mechanisch Verzahnte Architekturenunclassified
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“…Highly reactive C 59 NC radicals can be shielded by nesting them in carbon nanobelts consisting of single phenyl units connected in para position-cycloparaphenylenes (CPPs). [25][26][27][28][29][30][31] Our approach takes advantage of 1) the 1.4 nm cavity of [10]CPP, resembling the inner space of carbon nanotubes favoring p-p host-guest interactions,t oa ccommodate aC 59 NC radical (Figure 1a), 2) the diminished environmental exposure of the radical resulting from the favorable orientation of the CPPs close to the exposed radical, and 3) the well-established chemistry of C 59 NC,w hich prevents chemical addition to 1,4substituted phenylenes because of steric hindrance. [25][26][27][28][29][30][31] Our approach takes advantage of 1) the 1.4 nm cavity of [10]CPP, resembling the inner space of carbon nanotubes favoring p-p host-guest interactions,t oa ccommodate aC 59 NC radical (Figure 1a), 2) the diminished environmental exposure of the radical resulting from the favorable orientation of the CPPs close to the exposed radical, and 3) the well-established chemistry of C 59 NC,w hich prevents chemical addition to 1,4substituted phenylenes because of steric hindrance.…”
Section: Introductionmentioning
confidence: 99%