Akira Kubo scite author profile

Single crystals of three-dimensional (3D) C60 polymer were prepared by the topotactic conversion of two-dimensional (2D) C60 polymer single crystals at a pressure of 15 GPa at 600 degrees C. The x-ray single crystal study revealed that the 3D C60 polymer crystallized in a body centered orthorhombic space group Immm, and spherical C60 monomer units were substantially deformed to rectangular parallelepiped (cuboidal) shapes, each unit being bonded to eight cuboidal C60 neighbors via [3 + 3] cycloaddition. The 3D C60 polymer was electron conductive, in contrast with the nonconductive behavior of 2D polymers.

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Topochemical 3D Polymerization of C₆₀ under High Pressure at Elevated Temperatures

Yamanaka

Kini

Kubo

et al. 2008

J. Am. Chem. Soc.

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Fullerene C60 monomer crystals were compressed to a face-centered cubic (fcc) phase with a lattice parameter of a = 11.93(5) A and a micro-Vickers hardness of 4500 kg/mm2 using high-pressure and high-temperature conditions of 15 GPa at 500-600 degrees C. The hardness is compatible with that of cubic boron nitride (c-BN), suggesting the formation of a 3D C60 polymer. The single-crystal X-ray structural analysis revealed that each C60 molecule in the polymer was linked to the 12 nearest neighbors by [2+2] cycloaddition between the common pentagon-hexagon (56) edges. However, ab initio geometry optimization and molecular dynamics calculations suggested that the 3D polymer should have a rhombohedral structure with the space group of R containing [3+3] cycloaddition between the pentagons of C60 molecules within the plane perpendicular to the 3-fold axis. The higher apparent symmetry of fcc was observed as an averaged structure of different orientations of the rhombohedral structure. The R structure can be derived by only a slight rotation of each C60 unit in the (111) plane of the fcc structure. The band-structure calculation suggested that the 3D polymer (R) was a semiconductor; the activation energy for the electrical conductivity was experimentally determined to be 0.25 eV at 550 K.

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1-Arylnaphthalene Lignan: A Novel Scaffold for Type 5 Phosphodiesterase Inhibitor

Ukita¹,

Nakamura²,

Kubo³

et al. 1999

J. Med. Chem.

112

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1-Arylnaphthalene lignan, which had been reported as a PDE4 inhibitor by Iwasaki, was disclosed as a new structural class of PDE5 inhibitors. The structural requirements for potent and specific PDE5 inhibition were revealed in a 1-arylnaphthalene lignan series, in which 1-(3-bromo-4, 5-dimethoxyphenyl)-5-chloro-3-[4-(2-hydroxyethyl)-1-piperazinylcarbon yl]-2-(methoxycarbonyl)naphthalene hydrochloride (27q) showed the most potent and specific inhibition (PDE5 inhibition IC50 = 6.2 nM, selectivity for PDE5 against PDE1, -2, -3, and -4 >16 000). It is noteworthy that 27q has the best selectivities against PDE isoforms among PDE5 inhibitors so far reported. Compound 27q exhibited almost the same relaxant effects on rat aortic rings as sodium 1-[6-chloro-4-[(3, 4-methylenedioxybenzyl)amino]quinazolin-2-yl]piperidine-4-ca rboxylate (35) (27q, EC50 = 0.10 microM; 35, EC50 = 0.20 microM) and was selected for further biological evaluation.

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Akira Kubo

Amine containing phenylboronic acid gel for glucose-responsive insulin release under physiological pH

Electron Conductive Three-Dimensional Polymer of CuboidalC60

Topochemical 3D Polymerization of C₆₀ under High Pressure at Elevated Temperatures

1-Arylnaphthalene Lignan: A Novel Scaffold for Type 5 Phosphodiesterase Inhibitor

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Akira Kubo

Amine containing phenylboronic acid gel for glucose-responsive insulin release under physiological pH

Electron Conductive Three-Dimensional Polymer of CuboidalC60

Topochemical 3D Polymerization of C60 under High Pressure at Elevated Temperatures

1-Arylnaphthalene Lignan: A Novel Scaffold for Type 5 Phosphodiesterase Inhibitor

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Topochemical 3D Polymerization of C₆₀ under High Pressure at Elevated Temperatures