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Prof. Dr. Feng-Qing Yang graduated from the China Pharmaceutical University in 2003, and he obtained the MD and PhD degrees from the University of Macau in 2009. He has been a professor of the School of Chemistry and Chemical Engineering at the Chongqing University since 2014. ORCID iD: https://orcid.org/0000-0002-9300-5710. |
Contact information
Email:fengqingyang@cqu.edu.cn; ysfhqx@hotmail.com
Research direction
Research interests: spectroscopic analysis and sample pretreatment techniques, enzyme immobilizations and applications, chromatographic analysis, screening and evaluation of active components of natural products.
Representative papers, monographs and patents
1, G. Y. Chen, T. Q. Chai, H. Zhang, F. Q. Yang*. Applications of mild-condition synthesized metal complexes with enzyme-like activity in the colorimetric and fluorescence analysis. Coordination Chemistry Reviews, 2024; 508: 215761.
2, J. L. Wang, T. Q. Chai, L. X. Chen, G. Y. Chen, H. Chen, F. Q. Yang*. Manganese coordination polymer nanoparticles with excellent oxidase-like activity for the rapidly and selectively colorimetric detection of glutathione. Microchemical Journal, 2024; 199: 110207.
3, M. L. Luo, G. Y. Chen, J. L. Wang, T. Q. Chai, Z. M. Qian, W. J. Li, F. Q. Yang*. Detection of Arsenic(V) by Fluorescence Sensing Based on Chlorin e6-Copper Ion. Molecules, 2024; 29, 1015.
4, J. L. Wang, G. Y. Chen, T. Q. Chai, L. X. Chen, H. Chen, F. Q. Yang*. Construction of Mn-decorated zeolitic imidazolate framework-90 nanostructure as superior oxidase-like mimic for colorimetric detection of glucose and choline. Talanta, 2024; 271: 125708.
5, T. Q. Chai, G. Y. Chen, L. X. Chen, J. L. Wang, C. Y. Zhang, F. Q. Yang*. Adenine phosphate-Cu nanozyme with multienzyme mimicking activity for efficient degrading phenolic compounds and detection of hydrogen peroxide, epinephrine and glutathione. Analytica Chimica Acta, 2023, 1279: 341771.
6, T. Q. Chai, J. L. Wang, G. Y. Chen, L. X. Chen, F. Q. Yang*. Tris-Copper Nanozyme as a Novel Laccase Mimic for the Detection and Degradation of Phenolic Compounds. Sensors, 2023; 23(19): 8137.
7, L. X. Chen, S. J. Yin, T. Q. Chai, J. L. Wang, G. Y. Chen, X. Zhou, F. Q. Yang*. Ultra-High Adsorption Capacity of Core–Shell-Derived Magnetic Zeolite Imidazolate Framework-67 as Adsorbent for Selective Extraction of Theophylline. Molecules, 2023, 28(14), 5573.
8, S. J. Yin, L. X. Li, F. Q. Yang*. The light-responsive oxidase-like activity of MIL-125-NH2@Pd and its application in the determination of casein phosphopeptides. CrystEngComm, 2023, 25, 2110–2118.
9, S. J. Yin, G. Y. Chen, C. Y. Zhang, J. L. Wang, F. Q. Yang*. Zeolitic imidazolate frameworks as light-responsive oxidase-like mimics for the determination of adenosine triphosphate and discrimination of phenolic pollutants. Microchimica Acta, 2023; 190(1): 25.
10, G. Y. Chen, M. L. Luo, L. Chen, T. Q. Chai, J. L. Wang, L. X. Chen, F. Q. Yang*. Rapid and sensitive detection of alkaline phosphatase and glucose oxidase activity through fluorescence and colorimetric dual-mode analysis based on CuO NPs@ZIF-8 mediated enzyme-cascade reactions. Nanoscale Advances, 2023; 5(18): 4950–4967.