博士风采

当前位置: 首页 >> 师资队伍 >> 正文

郑贺杰

发布时间:2025-09-01    浏览次数:

郑贺杰 博士 讲师

地址:睢阳校区化学实验215

Emailzhenghj08@163.com


教育经历

2021.09-2025.06,湖南大学,获理学博士学位(导师:陈金华教授);

2018.09-2021.06,河南大学,获理学硕士学位(导师:刘小强教授);

2013.09-2017.06,平顶山学院,获理学学士学位;


工作经历

2025.06-至今,商丘师范学院化学化工学院,讲师


研究方向

光电化学生物传感

代表性研究成果

1. 论著

[1] Hejie Zheng, Huan Wang, Cuicui Du, Xiaohua Zhang*, Jinhua Chen*. Multifunctional ethyl violet@NH2‑MIL-88B(Fe) hybrids: CRISPR Cas12a-assisted PEC–FL–CL triple-mode sensitive detection of HPV‑16. Analytical Chemistry, 2024, 96, 15657-15664.

[2] Hejie Zheng, Zhili Wang, Guizhen Luo, Cuicui Du, Xiaohua Zhang*, Jinhua Chen*. A novel PEC–EC dual-mode biosensing platform for dual target detection of miRNA-133a and cTnI. Chinese Chemical Letters, 2025, 36, 110131.

[3] Hejie Zheng1, Linghe Bai1, Cuicui Du, Xiaohua Zhang*, Jinhua Chen*. PECEC dual-mode biosensing platform for PFOA assay based on competitive binding between HSA and PFOA or hemin. Sensors and Actuators B: Chemical, 2025, 429, 137326.

[4] Hejie Zheng, Zhili Wang, Guizhen Luo, Cuicui Du, Xiaohua Zhang, Jinhua Chen*. A triple-amplified electrochemicalphotoelectrochemical dual-mode biosensing platform for viral gene assay based on catalytic hairpin assembly, CRISPR-Cas12a and liposome-entrapped bifunctional methylene blue. Sensors and Actuators B: Chemical, 2024, 411, 135744.

[5] Hejie Zheng, Si Zhang, Jiangfeng Yuan, Tengteng Qin, Tongtong Li, Yuping Sun, Xiaoqiang Liu*, Danny K.Y. Wong*. Amplified detection signal at a photoelectrochemical aptasensor with a poly(diphenylbutadiene)-BiOBr heterojunction and Au-modified CeO2 octahedrons. Biosensors and Bioelectronics, 2022, 197, 113742.

[6] Hejie Zheng, Si Zhang, Xiaoqiang Liu*, Yanmei Zhou, Subbiah Alwarappan*. Synthesis of a PEDOT-TiO2 heterostructure as a dual biosensing platform operating via photoelectrochemical and electrochemical transduction mode. Biosensors and Bioelectronics, 2020, 162, 112234.

[7] Hejie Zheng1, Si Zhang1, Xiaoqiang Liu*, Anthony P. O'Mullane*. The application and improvement of TiO2 (titanate) based nanomaterials for the photoelectrochemical conversion of CO2 and N2 into useful products. Catalysis Science & Technology, 2021, 11, 768.