Yang Xing
Northwest Normal University
30 Papers
22 Citations
Yang Xing is an academic researcher from Northwest Normal University. The author has contributed to research in topics: Graphene & Ferrocene. The author has an hindex of 10, co-authored 30 publications. Previous affiliations of Yang Xing include Chinese Ministry of Education.
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Papers
Advances in the use of functional composites of β-cyclodextrin in electrochemical sensors.
Xiaohui Niu,Zunli Mo,Yang Xing,Mingyuan Sun,Zhao Pan,Zhenliang Li,Ouyang Meixuan,Liu Zhenyu,Huhu Gao,Ruibin Guo,Liu Nijuan +10 more
TL;DR: This review reveals β- CD-based detection mechanisms from the viewpoint of the size/shape-fit concept, and summarizes the current state of multiple electrochemical sensors based on the use of β-CD and functionalized β-cd such as carboxymethyl-β-CD, mono-(6-ethanediamine-6-deoxy)-β- CD, hydroxypropyl-β -CD, thio- β-cyclodextrin, and others.
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Highly sensitive fluorescence sensor for mercury(II) based on boron- and nitrogen-co-doped graphene quantum dots.
TL;DR: Using the good luminescence properties of B, N-GQDs, a new type of fluorescence sensor is invented that can detect Hg2+.
79
Voltammetric enantiomeric differentiation of tryptophan by using multiwalled carbon nanotubes functionalized with ferrocene and β-cyclodextrin
TL;DR: In this paper, two types of ferrocene-functionalized multiwalled carbon nanotubes (MWCNTs) are described and the chiral recognition mechanism of β-CD recognition tryptophan enantiomers is proposed.
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Graphene-ferrocene functionalized cyclodextrin composite with high electrochemical recognition capability for phenylalanine enantiomers.
TL;DR: An efficient chiral electrochemical sensing interface was constructed by using the rGO-Fc-CD composite as the electrode modification for the recognition of phenylalanine (Phe) enantiomers, indicating that the developed sensor has wide application prospects.
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Electrochemical chiral sensing of tryptophan enantiomers by using 3D nitrogen-doped reduced graphene oxide and self-assembled polysaccharides
TL;DR: The chiral sensor was used to detect Trp (D- or L-Trp) in spiked real human urine and human serum protein samples and proved that CD-Cu-CMC has a higher affinity for D- Trp.
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