Education:

B.S. , East China  University of Science and Technology , 1990

M.S. , Nanchang University ,1999

Ph.D. , Nanchang University, 2003

Professional Experience

09/2008-now     Professor, Nanchang University

05/2019-11/2019  Visiting scholar in Nanyang Technological University

11/2006-11/2007  Postdoctoral in Kansas State University

09/2002-09/2008  Associate professor, Nanchang University

03/1997-09/2002  Lecturer, Nanchang University

03/1993-03/1997  Research Assistant, Nanchang University

07/1990-03/1993  Research Assistant, Jiangxi Agriculture University

Projects:

National Key Research and Development Program of China (2019YFC1605502)

National Key Research and Development Program of China（2024YFF1105703）

National Natural Science Foundation of China (no. 31772066)

National Natural Science Foundation of China (no. 82260644)

National Natural Science Foundation of China (no. 82374031)

Earmarked fund for Jiangxi Agriculture Research System (JXARS-10)（2013－2027）

Jiangxi Cultivation Project for National Science and Technology Award （20223AEI91011）

Project of State Key Laboratory of Food Science and Resources, Nanchang University(20232BCD44004)

Selected Publications (corresponding author):

1. Application and development of superparamagnetic nanoparticles in sample pretreatment and immunochromatographic assay. Trac-trends in Analytical Chemistry, 2019, 114: 151-170. IF 13.1

2 Ultrabright fluorescent microsphere and its novel application for improving the sensitivity of immunochromatographic assay. Biosensors and Bioelectronics, 2019, 135: 173–180. IF 12.6

3 Lateral flow immunoassay based on polydopamine-coated gold nanoparticles for the sensitive detection of zearalenone in maize. ACS Applied Material& Interfaces, 2019, 11(34): 31283-31290. IF 10.4

4 Recent advances of lateral flow immunoassay for mycotoxins detection. Trends in Analytical Chemistry, 2020,133, 116087. IF 13.1

5 Developmental trend of immunoassays for monitoring hazards in food samples A review. Trends in Food Science & Technology, 2021, 111: 68-88. IF 16.0

6 Synthesis of PDA-Mediated Magnetic Bimetallic Nanozyme and Its Application in Immunochromatographic Assay. ACS Applied Materials &Interfaces, 2021, 13, 1413−1423. IF 10.4

7 Lateral flow immunoassay based on dual spectral-overlapped fluorescence quenching of polydopamine nanospheres for sensitive detection of sulfamethazine. Journal of Hazardous Materials, 2022, 423, 127204. IF 13.6

8 A novel method based on Ag–Au nanorings with tunable plasmonic properties for the sensitive detection of amantadine. Journal of Hazardous Materials, 2022, 431, 128498. IF 13.6

9 Tailored quantum dots for enhancing sensing performance of lateral flow immunoassay. Trends in Analytical Chemistry, 2022, 157: 116754. IF 13.1

10 Molecular engineering powered dual-readout point-of-care testing for sensitive detection of Escherichia coli O157:H7. ACS Nano, 2023, 17, 23, 23723–23731. IF 17.1

11 Synergistic dual-mechanism fluorescence quenching immunochromatographic assay based on Fe-polydopamine submicrobeads for sensitive detection of enrofloxacin. Chemical Engineering Journal, 2023, 454, 140444. IF 15.1

12 Triple strategy-enhanced immunochromatographic assay based on APCB and AIEFM for the ultrasensitive detection of AFM1. Journal of Hazardous Materials, 2023, 460, 132438. IF 13.6

13 An integrated colorimetric and photothermal lateral flow immunoassay based on bimetallic Ag–Au urchin-like hollow structures for the sensitive detection of E. coli O157:H7. Biosensors and Bioelectronics, 2023, 225, 115090. IF 12.6

14 Molecular engineering and confinement effect powered ultrabright nanoparticles for improving sensitivity of lateral flow Immunoassay. ACS Nano, 2024, 18, 3, 2346–2354. IF 17.1

15 Biomineralization–powered integrated immunoprobe and its application in Immunochromatographic assay. Biosensors and Bioelectronics, 2024, 248, 115945. IF 12.6

16 Efficient photothermal sensor based on coral-like hollow gold nanospheres for the sensitive detection of sulfonamides. Small, 2024, 20(28): 202307764. IF 15.2

17 Electron transfer-driven nanozymes boost biosensor sensitivity via a synergistic signal amplification strategy. ACS Nano 2025, 19: 9282-9291.

18 Emerging engineerable multifunctional metal nanocomposites for promoting comprehensive sensing performance of lateral flow immunoassay. Coordination Chemistry Reviews, 2025, 542: 216900.

19 Engineered collaborative grown model regulation and LSPR-tunable of Pd@Au core-shell nanoparticles for highly sensitive fluorescence quenching lateral flow immunoassay. Biosensors and Bioelectronics, 2025, 280: 117425.

20 Luminescent gold nanoclusters from synthesis to sensing: A comprehensive review. Chemical Engineering Journal, 2025, 503: 158294.

21 Novel reporter based on Aggregation-induced emission Luminogens for lateral flow immunoassay: A mini review. TrAC Trends in Analytical Chemistry, 2025, 183: 118098.

22 Selective surface passivation of gold nanoparticles: A strategy for enhanced sensitivity in lateral flow immunoassay. Chemical Engineering Journal, 2025, 503: 158571.