Haruna Narita scite author profile

We herein report a new set of supramolecular nanotools for the generation and modulation of singlet fission (SF) of noncovalent/covalent pentacene dimers. Two molecules of a pentacene monomer with bulky substituents are facilely encapsulated by a polyaromatic capsule, composed of naphthalene-based bent amphiphiles, in water. The encapsulated noncovalent dimer converts to otherwise undetectable triplet pairs and an individual triplet in high quantum yields (179% and 53%, respectively) even under high dilution conditions. Within the capsule, a covalently linked pentacene dimer with bulky groups generates two triplet pair intermediates in parallel, which are hardly distinguished in bulk solution, in excellent total quantum yield (196%). The yield of the individual triplet is enhanced by 1.6 times upon encapsulation. For both types of pentacene dimers, the SF features can be readily tuned by changing the polyaromatic panels of the capsule (i.e., anthracene and phenanthrene).

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A Fullerene‐Based Molecular Torsion Balance for Investigating Noncovalent Interactions at the C₆₀ Surface

Yamada

Narita

Maeda

2020

Angew Chem Int Ed

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To investigate the nature and strength of noncovalent interactions at the fullerene surface, molecular torsion balances consisting of C60 and organic moieties connected through a biphenyl linkage were synthesized. NMR and computational studies show that the unimolecular system remains in equilibrium between well‐defined folded and unfolded conformers owing to restricted rotation around the biphenyl C−C bond. The energy differences between the two conformers depend on the substituents and is ascribed to differences in the intramolecular noncovalent interactions between the organic moieties and the fullerene surface. Fullerenes favor interacting with the π‐faces of benzenes bearing electron‐donating substituents. The correlation between the folding free energies and corresponding Hammett constants of the substituents in the arene‐containing torsion balances reflects the contributions of the electrostatic interactions and dispersion force to face‐to‐face arene–fullerene interactions.

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Haruna Narita

Preparation and Physical Properties of FexTaS2 (0.15 ≤ x ≥ 0.50) Compounds

Supramolecular Singlet Fission of Pentacene Dimers within Polyaromatic Capsules

A Fullerene‐Based Molecular Torsion Balance for Investigating Noncovalent Interactions at the C₆₀ Surface

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Haruna Narita

Preparation and Physical Properties of FexTaS2 (0.15 ≤ x ≥ 0.50) Compounds

Supramolecular Singlet Fission of Pentacene Dimers within Polyaromatic Capsules

A Fullerene‐Based Molecular Torsion Balance for Investigating Noncovalent Interactions at the C60 Surface

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A Fullerene‐Based Molecular Torsion Balance for Investigating Noncovalent Interactions at the C₆₀ Surface