王以淋

讲师

Email: wangyilin@huas.edu.cn

个人简历

王以淋，1996年生，男，理学博士，讲师，湘潭大学化学专业（硕博连读）获得理学博士学位（2019.09-2025.06）。主要从事MOFs材料的合成与传感应用、光/电化学传感器研发、环境与食品分析等研究。以第一作者或共同一作在Nano   Energy、Chemical Engineering Journal、Sensors and Actuators B：Chemical等国际主流SCI期刊上发表论文10篇，累计参与发表论文30余篇，被引680余次，个人h-index   15。主持湖南省研究生创新重点项目1项，参与多个国家级/省级科研项目。

研究方向

1.    光/电化学传感器

2.      电分析化学

3.    环境与食品分析

代表性论著

1.        Yilin Wang, Junjie Fei*. Polyaniline-on-MOF   protects the MOF structure during carbonization for the construction of a   portable sensor to detect tert-butylhydroquinone [J]. Nano Energy.   2025, 135, 110655.

2.        Yilin Wang, Junjie Fei*. Modulation of metal centers   of MOF in-situ grown on lignin-derived carbon to enhance adsorption capacity   and electrocatalytic activity for bisphenol A [J]. Chemical Engineering   Journal, 2024, 499, 156279.

3.        Yilin Wang, Junjie Fei*. A photoelectrochemical   sensor for highly selective detection of tert-butylhydroquinone based on   Z-scheme heterojunction electron transport channel of SnIn₄S₈   hierarchical microsphere nanoflower assembled Bi₂O₃   pyramid [J]. Sensors and Actuators B: Chemical, 2025, 422, 136571.

4.        Yilin Wang, Junjie Fei*. An electrochemical sensor   based on Ce-MOF-derived Ce-doped poly(3,4-ethylenedioxythiophene) composite   for efficient determination of rutin in food [J]. Talanta, 2023, 263,   124678.

5.        Yilin Wang, Junjie Fei*. An ultra-sensitive   luteolin sensor based on Co-doped nitrogen-containing carbon framework/MoS₂-MWCNTs   composite for natural sample detection [J]. Electrochimica Acta, 2023,   438, 141534.

6.        Yilin Wang, Junjie Fei*. An ultra-sensitive   kaempferol electrochemical sensor based on flower-like ZIF-8   pyrolysis-derived ZnWO₄/porous nanocarbon composites [J]. Microchemical   Journal, 2022, 179, 107519.

7.        Yilin Wang, Junjie Fei*. Ultrafine metal–organic framework @ graphitic   carbon with MoS₂-CNTs nanocomposites as carbon-based   electrochemical sensor for ultrasensitive detection of catechin in beverages   [J]. Microchimica Acta. 2025, 192(1), 40.

8.        Yilin Wang, Junjie Fei*. Ultra-sensitive   electrochemical sensor based on MOF-derived Ni@carbon nanoframework and   MWCNTs for the detection of flutamide in environmental water samples [J]. Microchimica   Acta, 2025, 192(9): 623.

9.        Yilin Wang, Junjie Fei*. Temperature-controlled   electrochemical sensor based on environmentally responsive polymer/BiPO₄/BiOCl/multi-walled   carbon nanotube composite for the detection of catechol in water [J]. Colloids   and Surfaces A: Physicochemical and Engineering Aspects, 2023, 657,   130543.

10.     Xi Tang#, Yilin   Wang#, Junjie Fei*. ZnS-assembled CdIn₂S₄ Z-type   heterojunction as a photoelectrochemical sensor for ultra-trace detection of   m-nitrophenol in environmental water samples [J]. Sensors and Actuators B:   Chemical, 2024, 400, 134921.