Peixi Zhu scite author profile

Robust self-healing thermoplastic elastomers are expected to have repeated healing capability, remarkable mechanical properties, transparency, and superior toughness. The phase-locked design in this work provides excellent tensile mechanical properties and efficient healability at a moderate temperature due to the dynamic disulfide bonds embedded in the hard segments and mainly being locked in the viscoelastic hard microphase region. The self-healing elastomers exhibit a maximum tensile stress of 25 MPa and a fracture strain of over 1600%, which are quite prominent compared to previous reports. The nanoscale domains of the elastomer are smaller than the wavelength of visible light by microphase separation control resulting in colorless, nearly 100% transparency, and are as good as quartz glasses. The high dynamics of the phase-locked disulfide bonds renders a high healing efficiency of scratches on the surface within 60 s at 70 °C. The rapid scratch healing and complete transparency recovery of the elastomers provide new avenues in the highly transparent surface or protective films which finds potential applications for precision optical lenses, flexible display screens, and automobile or aircraft lighting finishes.

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Climatological distribution and diurnal variation of mesoscale convective systems over China and its vicinity during summer

Zheng

Chen

Zhu

2008

Sci. Bull.

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Adsorption structures of NO on Pt(1 1 1) studied by the near edge X-ray absorption fine structure spectroscopy

et al. 2004

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Dynamic Bonds Mediate π-π Interaction via Phase Locking Effect for Enhanced Heat Resistant Thermoplastic Polyurethane

et al. 2020

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Peixi Zhu

Colorless, Transparent, Robust, and Fast Scratch‐Self‐Healing Elastomers via a Phase‐Locked Dynamic Bonds Design

Climatological distribution and diurnal variation of mesoscale convective systems over China and its vicinity during summer

Adsorption structures of NO on Pt(1 1 1) studied by the near edge X-ray absorption fine structure spectroscopy

Dynamic Bonds Mediate π-π Interaction via Phase Locking Effect for Enhanced Heat Resistant Thermoplastic Polyurethane

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