Hideki Ito scite author profile

Plasma‐induced polystyrene radicals were first studied by electron spin resonance (ESR). The room temperature ESR spectrum was compared with those obtained by γ‐irradiation, UV‐irradiation, and mechanical fracture. It was found that even less than a few seconds of plasma‐irradiation gave rise to a large amount of polystyrene radicals and the ESR spectrum consisted of two types of spectra, a triplet and a single broad line. The spectral feature of the triplet was nearly identical with that of γ‐irradiated polystyrene. Thus, it was assigned to the structure of a cyclohexadienyl‐type radical formed by a nearly random addition of a hydrogen atom to the aromatic ring. The single broad line, thought to be an outline of multicomponent spectrum, was assigned to an immobilized dangling‐bond sites at the plasma‐induced crosslinked portion of the polystyrene surface.

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ESR study on the nature of oxygen plasma-induced surface radicals of Teflon and corresponding peroxy radical reactivity

Kuzuya¹,

Kondo²,

Ito³

et al. 1992

Applied Surface Science

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Nature of Auto-Oxidations on Plasma-Induced Surface Radicals of Aromatic Ring-Containing Polymers as Studied by Electron Spin Resonance.

Kuzuya¹,

Ito

Sugito

et al. 1998

J. Photopol. Sci. Technol.

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Hideki Ito

Electron spin resonance study of the special features of plasma-induced radicals and their corresponding peroxy radicals in polytetrafluoroethylene

Nature of plasma-induced surface radicals of powdered polyethylene studied by electron spin resonance

Electron spin resonance studies of plasma‐induced polystyrene radicals

ESR study on the nature of oxygen plasma-induced surface radicals of Teflon and corresponding peroxy radical reactivity

Nature of Auto-Oxidations on Plasma-Induced Surface Radicals of Aromatic Ring-Containing Polymers as Studied by Electron Spin Resonance.

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