Hiroyuki Isobe scite author profile

Fullerenes are entirely insoluble in water, but suitable functionalization makes the molecules soluble. Studies on water-soluble fullerene derivatives led to the discovery of the interaction of organofullerenes with DNA, proteins, and living cells, which was first reported in the summer of 1993. Subsequent studies have revealed interesting biological activity aspects of organofullerenes owing to their photochemistry, radical quenching, and hydrophobicity to form one- to three-dimensional supramolecular complexes. In these areas of research, synthetic organic chemistry has played an important role in the creation of tailor-made molecules.

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Bottom-up synthesis of finite models of helical (n,m)-single-wall carbon nanotubes

Hitosugi

et al. 2011

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Spherical Bilayer Vesicles of Fullerene-Based Surfactants in Water: A Laser Light Scattering Study

Zhou

Bürger

Chu

et al. 2001

Science

393

248

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The low solubility of fullerenes in aqueous solution limits their applications in biology. By appropriate substitution, the fullerenes can be transformed into stabilized anions that are water soluble and can form large aggregated structures. A laser light scattering study of the association behavior of the potassium salt of pentaphenyl fullerene (Ph5C60K) in water revealed that the hydrocarbon anions Ph5C60- associate into bilayers, forming stable spherical vesicles with an average hydrodynamic radius and a radius of gyration of about 17 nanometers at a very low critical aggregation concentration of less than 10(-7) moles per liter. The average aggregation number of associated particles in these large spherical vesicles is about 1.2 x 10(4).

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Molecular bearings of finite carbon nanotubes and fullerenes in ensemble rolling motion

et al. 2013

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A carbonaceous bearing of a minimal form has been assembled using a finite carbon nanotube molecule and a functionalised fullerene molecule. With the van der Waals attraction, the bearing holds the fullerene journal tightly to prevent its run-out motion, and the journal with a shaft rolls anisotropically in the bearing despite the tight holding constraint. Ensemble motion has been revealed spectroscopically at the molar quantity level.

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[Cu(dap)₂Cl] As an Efficient Visible‐Light‐Driven Photoredox Catalyst in Carbon–Carbon Bond‐Forming Reactions

Pirtsch

Paria

Matsuno

et al. 2012

Chemistry A European J

304

190

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Hiroyuki Isobe

Functionalized Fullerenes in Water. The First 10 Years of Their Chemistry, Biology, and Nanoscience

Bottom-up synthesis of finite models of helical (n,m)-single-wall carbon nanotubes

Spherical Bilayer Vesicles of Fullerene-Based Surfactants in Water: A Laser Light Scattering Study

Molecular bearings of finite carbon nanotubes and fullerenes in ensemble rolling motion

[Cu(dap)₂Cl] As an Efficient Visible‐Light‐Driven Photoredox Catalyst in Carbon–Carbon Bond‐Forming Reactions

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Hiroyuki Isobe

Functionalized Fullerenes in Water. The First 10 Years of Their Chemistry, Biology, and Nanoscience

Bottom-up synthesis of finite models of helical (n,m)-single-wall carbon nanotubes

Spherical Bilayer Vesicles of Fullerene-Based Surfactants in Water: A Laser Light Scattering Study

Molecular bearings of finite carbon nanotubes and fullerenes in ensemble rolling motion

[Cu(dap)2Cl] As an Efficient Visible‐Light‐Driven Photoredox Catalyst in Carbon–Carbon Bond‐Forming Reactions

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[Cu(dap)₂Cl] As an Efficient Visible‐Light‐Driven Photoredox Catalyst in Carbon–Carbon Bond‐Forming Reactions