Yipeng Ren
Nankai University
14 Papers
4 Citations
Yipeng Ren is an academic researcher from Nankai University. The author has contributed to research in topics: Medicine & Cyclic voltammetry. The author has an hindex of 5, co-authored 5 publications.
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Papers
Synthesis of tetrahexahedral Au-Pd core-shell nanocrystals and reduction of graphene oxide for the electrochemical detection of epinephrine.
Wenhao Dong,Yipeng Ren,Zhixue Bai,Jun Jiao,Yuan Chen,Bingkai Han,Qiang Chen +6 more
- 15 Feb 2018
TL;DR: An innovative epinephrine sensor was fabricated by integrating tetrahexahedral Au-Pd core-shell nanocrystals on reduced graphene oxide (rGO) nanosheets, and the data showed that the sensor possessed good stability and acceptable accuracy to detectEpinephrine in human serum samples.
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Preparation of Nano Au and Pt Alloy Microspheres Decorated with Reduced Graphene Oxide for Nonenzymatic Hydrogen Peroxide Sensing
TL;DR: Nano Au and Pt alloy microspheres decorated with reduced graphene oxide (RGO/nAPAMSs) are synthesized by a simple, facile, and eco-friendly one-step reduction strategy for the fabrication of highly sensitive nonenzymatic H2O2 sensing interfaces.
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Fabrication of hexahedral Au-Pd/graphene nanocomposites biosensor and its application in cancer cell H2O2 detection.
TL;DR: A high-performance sensor was constructed by taking advantage of the excellent electrochemical activity and high-index facets of Au-Pd nanocubes and the large surface of rGO to construct a physiological and pathological H2O2 biosensor that makes a valuable contribution to the early diagnosis of different cancers.
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Trimetallic AuPtPd nanocomposites platform on graphene: Applied to electrochemical detection and breast cancer diagnosis.
TL;DR: This study improves simplicity, sensitivity and quantitatively for detection H2O2 in cells at nM level but also provides a foundation for the biological and biomedical applications such as the early diagnosis of cancer.
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Synthesis of Pb nanowires-Au nanoparticles nanostructure decorated with reduced graphene oxide for electrochemical sensing
TL;DR: The present work provides a potential practicable approach to fabricate various of non-enzymatic amperometric sensors, such as sensors for the detection of glucose, urea, ascorbic acid and dopamine.
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