Xiaodi Yang
Nanjing University
10 Papers
168 Citations
Xiaodi Yang is an academic researcher from Nanjing University. The author has contributed to research in topics: Aqueous solution & Detection limit. The author has an hindex of 8, co-authored 10 publications.
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Papers
Analytical methodologies for aluminium speciation in environmental and biological samples--a review.
TL;DR: Concerns about the specific problems of Al speciation and highlights of some important methods are elucidated in sections devoted to hybrid techniques, flow-injection analysis, nuclear magnetic resonance, electrochemical analysis, and computer simulation.
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Neurotransmitter dopamine applied in electrochemical determination of aluminum in drinking waters and biological samples
Fuping Zhang,Li Yang,Shuping Bi,Jian Liu,Feng Liu,Xianlong Wang,Xiaodi Yang,Ning Gan,Tsing Yu,Jun Hu,Hongzhao Li,Tianming Yang +11 more
TL;DR: It was demonstrated that the decrease of the differential pulse voltammetric (DPV) anodic peak current of dopamine (3,4-dihydroxyphenylethylamine, DA) was linear with the increase of aluminum (Al) concentration.
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ELECTROCHEMICAL AND SPECTROMETRIC STUDIES ON THE PRINCIPLE OF INDIRECT DETER-MINATION OF ALUMINUM USING l-DOPA AS AN ELECTROACTIVE COMPLEXING LIGAND
Fuping Zhang,Shuping Bi,Jian Liu,Xianlong Wang,Xiaodi Yang,Li Yang,Qing Yu,Jun Hu,Zhiping Bai +8 more
TL;DR: In this article, the anodic peak current of l-dopa decreases linearly with the increase of the concentration of aluminum (Al), and three optimal experimental conditions for the determination of Al in the pH range from 3.6 to 9.2 were obtained.
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Application of dopamine as an electroactive ligand for the determination of aluminum in biological fluids.
Fuping Zhang,Shuping Bi,Jian Liu,Xiaodi Yang,Xianlong Wang,Li Yang,Tsing Yu,Yijun Chen,Lemei Dai,Tianming Yang +9 more
TL;DR: The methodological principle that Al complexes with DA on the electroactive position result in the depression of electrochemical activities of DA has been verified by comparing both the electrochemical behaviors and the spectroscopic responses like UV-vis and Raman of DA in the presence and in the absence of Al.
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Multi-NMR and fluorescence spectra study the effects of aluminum(III) on coenzyme NADH in aqueous solutions
TL;DR: Al(III) could increase the amount of folded forms of NADH, which will result in reducing the coenzyme NADH activity in hollow-dehydrogenases reaction systems, and in the presence of possible competing organic acids such as citrate, oxalate and tartate, could detoxify these Al( III) toxic effect.
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