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Bin Zheng
Researcher at East China University of Science and Technology
Publications - 6
Citations - 727
Bin Zheng is an academic researcher from East China University of Science and Technology. The author has contributed to research in topics: Oxide & Graphene. The author has an hindex of 4, co-authored 6 publications receiving 650 citations.
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Journal ArticleDOI
Photo-Fenton Reaction of Graphene Oxide: A New Strategy to Prepare Graphene Quantum Dots for DNA Cleavage
Xuejiao Zhou,Yan Zhang,Chong Wang,Xiaochen Wu,Yongqiang Yang,Bin Zheng,Haixia Wu,Shouwu Guo,Jingyan Zhang +8 more
TL;DR: It is demonstrated in this work that the micrometer sized graphene oxide (GO) sheets could react with Fenton reagent efficiently under an UV irradiation, and, as a result, the GQDs with periphery carboxylic groups could be generated with mass scale production.
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Horseradish Peroxidase Immobilized on Graphene Oxide: Physical Properties and Applications in Phenolic Compound Removal
TL;DR: The GO immobilized HRP exhibited overall a high removal efficiency to several phenolic compounds in comparison to soluble HRP, especially for 2,4-dimetheoxyphenol and 2-chlorphenol, t...
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Nuclease Activity and Cytotoxicity Enhancement of the DNA Intercalators via Graphene Oxide
Bin Zheng,Chong Wang,Congyu Wu,Xuejiao Zhou,Min Lin,Xiaochen Wu,Xiaozhen Xin,Xin Chen,Lin Xu,Hui Liu,Jing Zheng,Jingyan Zhang,Shouwu Guo +12 more
TL;DR: It is demonstrated that the nuclease activity and cytotoxicity of the small DNA intercalators can be dramatically enhanced by single atomic-layered graphene oxide (GO) sheets through π–π stacking interaction mainly between GO and the aromatic ligands of interCalators.
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Electron Transfer from Graphene Quantum Dots to the Copper Complex Enhances Its Nuclease Activity
TL;DR: In this paper, the authors investigated the mechanism of GQDs in enhancing nuclease activity of copper complexes and found that the reduction of copper ions and accelerate their reaction with O2, forming superoxide anions and copper-centered radicals.
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Effect of coordination sphere of the copper center and Cu―Cu distance on catechol oxidase and nuclease activities of the copper complexes
TL;DR: In this article, the effect of Cu-Cu distance in the structure of copper complexes on their catechol oxidase and nuclease activity was explored and characterized with elemental analysis, single-crystal X-ray diffraction, molar conductivity measurements, IR and UV-visible spectroscopy.