Peixian Bian scite author profile

Peixian Bian

3Publications

66Citation Statements Received

167Citation Statements Given

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Chinese Academy of Medical Sciences & Peking Union Medical College

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Hollow PtPdRh Nanocubes with Enhanced Catalytic Activities for In Vivo Clearance of Radiation‐Induced ROS via Surface‐Mediated Bond Breaking

Wang

et al. 2018

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Catalytic nanomaterials can be used extrinsically to combat diseases associated with a surplus of reactive oxygen species (ROS). Rational design of surface morphologies and appropriate doping can substantially improve the catalytic performances. In this work, a class of hollow polyvinyl pyrrolidone-protected PtPdRh nanocubes with enhanced catalytic activities for in vivo free radical scavenging is proposed. Compared with Pt and PtPd counterparts, ternary PtPdRh nanocubes show remarkable catalytic properties of decomposing H O via enhanced oxygen reduction reactions. Density functional theory calculation indicates that the bond of superoxide anions breaks for the energetically favorable status of oxygen atoms on the surface of PtPdRh. Viability of cells and survival rate of animal models under exposure of high-energy γ radiation are considerably enhanced by 94% and 50% respectively after treatment of PtPdRh nanocubes. The mechanistic investigations on superoxide dismutase (SOD) activity, malondialdehyde amount, and DNA damage repair demonstrate that hollow PtPdRh nanocubes act as catalase, peroxidase, and SOD analogs to efficiently scavenge ROS.

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Enhanced catalysis of ultrasmall Au-MoS 2 clusters against reactive oxygen species for radiation protection

et al. 2018

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Ultrasmall Pt Clusters Reducing Radiation-Induced Injuries via Scavenging Free Radicals

Xu¹,

Mu²,

Wang³

et al. 2017

j biomed nanotechnol

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Peixian Bian

Hollow PtPdRh Nanocubes with Enhanced Catalytic Activities for In Vivo Clearance of Radiation‐Induced ROS via Surface‐Mediated Bond Breaking

Enhanced catalysis of ultrasmall Au-MoS 2 clusters against reactive oxygen species for radiation protection

Ultrasmall Pt Clusters Reducing Radiation-Induced Injuries via Scavenging Free Radicals

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