Jieling Qin

Qin Jieling, with more than many years of rich experience in material chemistry and analytical chemistry, is committed to taking analytical chemistry as the main research method, cross-integrating medical laboratory, semiconductor science and information devices, and in-depth research on the design and preparation of electrochemical sensors and early, real-time detection methods in chronic diseases. In the past five years, he has published SCI papers in high-level international journals of Analytical Chemistry, Biosensors and Bioelectronics as the first/corresponding author, and has been cited 1800+ times, H-index 15, and 7 authorized patents. As the project leader, he has won 6 national provincial and ministerial projects, including National Natural Science Foundation Youth Project, Shanghai Science and Technology Commission Youth Science and Technology Talents "Sail Program", Shanghai Science and Technology Commission Medical Innovation Surface project and Shanghai Education Commission "Morning Light Program" and other projects. He has been awarded the "National Self-Funded Student Scholarship", "Research Scholarship of Korea National Foundation (BK21)", "Excellent Master's Thesis of Jiangsu Province", "SKKU Global Leader Award (Sungkyunkwan University Global Leader Award, No.0020)", National Scholarship (3 times) and other honors.

Aiming at the scientific and technological problems such as stability, specificity and sensitivity in the personalized precision diagnosis and treatment of neurodegenerative diseases in chronic diseases, quantitative detection of polypeptide and protein biomarkers by biosensors was carried out. It was the first to discover small molecule specific recognition protein markers to realize sensor quantification and stability detection; The photoelectric chemical double function detection method is developed to realize the visualization and portable diagnosis of the sensor. A multi-shape conductive polymer was introduced to achieve trace detection of markers.

2015-09 to 2019-08, Sungkyunkwan University, Chemistry and Engineering, PhD
2012-09 to 2015-06, Master of Materials Physics and Chemistry, Jiangsu University
2008-09 to 2012-06, Jiangsu University, Polymer Materials Science and Engineering, BA

2023-3 - Present, Assistant Professor/Special Associate Researcher, School of Chemistry and Chemical Engineering, Beijing Institute of Technology
2021-03 to 2023-02, Cancer Center, 10th People's Hospital Affiliated to Tongji University, Researcher
2020-08 to 2021-02, Cancer Center, 10th People's Hospital Affiliated to Tongji University, Associate Researcher
2019-10 to 2020-07, Cancer Center, Tongji University, Assistant Researcher

1. Zhenqi Jiang⁎, Haoran Shi, Xiaoying Tanga, Jieling Qin⁎, Recent advances in droplet microfluidics for single-cell analysis, Trends in Analytical Chemistry 159 (2023) 116932
2. Tengbo Zhang#, Yaxu Li #, Yanrong Yang#, Linjun Weng, Zhiqiang Wu, Jiali Zhu, Jieling Qin⁎, Qi Liu⁎, Ping Wang⁎. iCRISEE: an integrative analysis of CRISPR screen by reducing false positive hits. Briefings in Bioinformatics 23 (1), bbab505
3. Jieling Qin, Soochan Kim, Misuk Cho* and Youngkwan Lee*. Hierarchical and ultra-sensitive amyloid beta oligomer sensor for practical applications. Chemical Engineering Journal.401 (2020) 126055
4. Jieling Qin, Dong Gyu Jo, Misuk Cho* and Youngkwan Lee*. Monitoring of early diagnosis of Alzheimer’s disease using cellular prion protein and poly (pyrrole-2-carboxylic acid) modified electrode. Biosensors and bioelectronics 113 (2018) 82-87
5. Jieling Qin, Misuk Cho* and Youngkwan Lee*. Ferrocene- encapsulated Zn zeolitic imidazole framework (ZIF-8) for optical and electrochemical sensing of amyloid-β oligomer and for the early diagnosis of Alzheimer’s disease. ACS Applied Materials & Interfaces 11 (2019) 11743-11748
6. Jieling Qin, Jin Su Park, Misuk Cho* and Youngkwan Lee*. Curcumin-based electrochemical sensor of amyloid-β oligomer for the early detection of Alzheimer’s disease. Sensors & Actuators: B. Chemical 273 (2018) 1593-1599
7. Jieling Qin, Misuk Cho* and Youngkwan Lee*. Ultrasensitive Detection of Amyloid-β Using Cellular Prion Protein on the Highly Conductive Au Nanoparticles-Poly (3,4-ethylene dioxythiophene)–Poly(thiophene-3-acetic acid) Composite Electrode. Analytical Chemistry 2019，91，17，11259-11265