Chisato Omori scite author profile

Chisato Omori

3Publications

15Citation Statements Received

161Citation Statements Given

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Osaka City University

Publications

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Thermal Latent Reductants for Controlled Degradation of Polyperoxides and Their Application to High Performance Dismantlable Adhesives

Sato

Omori

Yuri

et al. 2019

ACS Appl. Polym. Mater.

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1-Phenyl-3-pyrazolidone (PhP) having an active hydrogen was blocked by phenyl isocyanate derivatives to reduce its nucleophilicity, and the potential of the blocked PhP as a thermal latent reductant generating the organic reducing agent, PhP, was revealed for the first time. The degree of dissociation of the blocked PhP during heating in solution can be controlled by the steric hindrance of the isocyanate-blocking agents. The thermal latency of the blocked PhP for the sorbic ester-based polyperoxides, which undergo a serious reductive decomposition by PhP even at 30 °C, was investigated in order to accelerate the decomposition of the polyperoxides only at elevated temperatures. It was revealed that the stability of the polyperoxides was not significantly affected at 30 °C and marked reductive decomposition of the polyperoxides together with thermal decomposition took place at elevated temperatures. For the block PhPs, which are highly compatible with the polyperoxides, the decomposition promotion effect increased with increasing the steric hindrance of the blocking agents, and the controlled decomposition of the polyperoxides was successfully achieved. Moreover, the addition of the blocked PhP resulted in the complete solubilization of sorbic ester-based cross-linked polyperoxides by heating, which was not able to be achieved without the blocked PhP. The performance of the debondable adhesive using the sorbic ester-based cross-linked polyperoxides was improved by the addition of the blocked PhP, although hazardous isocyanate formation during the activation process may limit the practical application. Specifically, a faster decrease in the lap-shear adhesion strength by heating was accomplished. Furthermore, the same level of dismantlability was achieved in the wade range of heating temperatures and time, which is an 3 important requirement for polyperoxides undergoing significant exothermic decomposition bringing about undesired temperature rise.

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Cross-linked Polyperoxides for Photoremovable Adhesives

Sato

Omori

Nishiyama

et al. 2018

J. Photopol. Sci. Technol.

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Regiospecificity of Alternating Copolymerization of Cyclic Conjugated Dienes and Oxygen

et al. 2019

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Alternating radical copolymerization of cyclic conjugated diene monomers, i.e., cyclopentadiene and furan, with oxygen were carried out to generate degradable polyperoxides. The cyclopentadiene and furan based-polyperoxides consisted of different regiospecific structures. The regiospecificity of the alternating copolymerization was rationalized by the bond dissociation energies of the carbon-to-oxygen bond of the peroxy radicals based on density functional theory calculations. The thermal degradation behavior of the resulting cyclic conjugated diene-based polyperoxides was also investigated.

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Chisato Omori

Thermal Latent Reductants for Controlled Degradation of Polyperoxides and Their Application to High Performance Dismantlable Adhesives

Cross-linked Polyperoxides for Photoremovable Adhesives

Regiospecificity of Alternating Copolymerization of Cyclic Conjugated Dienes and Oxygen

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