Kei Kurotobi scite author profile

Water normally exists in hydrogen-bonded environments, but a single molecule of H(2)O without any hydrogen bonds can be completely isolated within the confined subnano space inside fullerene C(60). We isolated bulk quantities of such a molecule by first synthesizing an open-cage C(60) derivative whose opening can be enlarged in situ at 120°C that quantitatively encapsulated one water molecule under the high-pressure conditions. The relatively simple method was developed to close the cage and encapsulate water. The structure of H(2)O@C(60) was determined by single-crystal x-ray analysis, along with its physical and spectroscopic properties.

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A Quadruply Azulene‐Fused Porphyrin with Intense Near‐IR Absorption and a Large Two‐Photon Absorption Cross Section

Kurotobi

et al. 2006

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Highly Asymmetrical Porphyrins with Enhanced Push–Pull Character for Dye‐Sensitized Solar Cells

Kurotobi

Toude

Kawamoto

et al. 2013

Chemistry A European J

134

132

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A porphyrin π-system has been modulated by enhancing the push-pull character with highly asymmetrical substitution for dye-sensitized solar cells for the first time. Namely, both two diarylamino moieties as a strong electron-donating group and one carboxyphenylethynyl moiety as a strong electron-withdrawing, anchoring group were introduced into the meso-positions of the porphyrin core in a lower symmetrical manner. As a result of the improved light-harvesting property as well as high electron distribution in the anchoring group of LUMO, a push-pull-enhanced, porphyrin-sensitized solar cell exhibited more than 10% power conversion efficiency, which exceeded that of a representative highly efficient porphyrin (i.e., YD2)-sensitized solar cell under optimized conditions. The rational molecular design concept based on highly asymmetric, push-pull substitution will open the possibilities of further improving cell performance in organic solar cells.

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Self-assembling porphyrins and phthalocyanines for photoinduced charge separation and charge transport

et al. 2012

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Large π-conjugated compounds are promising building blocks for organic thin-film electronics such as organic light-emitting diodes, organic field-effect transistors, and organic photovoltaics. Utilization of porphyrins and phthalocyanines for this purpose is highly fascinating because of their excellent electric, photophysical, and electrochemical properties as well as intense self-assembling abilities arising from π-π stacking interactions. This paper focuses on fundamental aspects of self-assembled structures that have been obtained from porphyrin and phthalocyanine building blocks and more complex composites for photoinduced charge separation and charge transport toward the potential applications to organic thin-film electronics.

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Kei Kurotobi

A Single Molecule of Water Encapsulated in Fullerene C ₆₀

A Quadruply Azulene‐Fused Porphyrin with Intense Near‐IR Absorption and a Large Two‐Photon Absorption Cross Section

Highly Asymmetrical Porphyrins with Enhanced Push–Pull Character for Dye‐Sensitized Solar Cells

Self-assembling porphyrins and phthalocyanines for photoinduced charge separation and charge transport

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Kei Kurotobi

A Single Molecule of Water Encapsulated in Fullerene C 60

A Quadruply Azulene‐Fused Porphyrin with Intense Near‐IR Absorption and a Large Two‐Photon Absorption Cross Section

Highly Asymmetrical Porphyrins with Enhanced Push–Pull Character for Dye‐Sensitized Solar Cells

Self-assembling porphyrins and phthalocyanines for photoinduced charge separation and charge transport

Contact Info

Product

Resources

About

A Single Molecule of Water Encapsulated in Fullerene C ₆₀