王妍蓉，女，藏族，1990年8月生，中共党员，兰州大学物理科学与技术学院副教授。 教育经历： 2020/06-至今，兰州大学物理科学与技术学院，副教授 2017/06-2020/06 兰州大学物理科学与技术学院，讲师 2015/08-2016/08 新加坡南洋理工大学，联合培养博士 2012/09-2017/06 厦门大学，萨本栋微米纳米科学技术研究院，微电子与固体电子学专业，博士 2008/09-2012/06 厦门大学，经济学院，经济系，本科（双学位） 2008/09-2012/06 厦门大学，信息科学与技术学院，电子工程系，本科

1、面向工业生产安全、环境污染、人体健康以及家居环境等领域的传感检测，围绕金属氧化物材料、低维半导体材料及新型传感材料的设计和制备，结合半导体器件工艺，开展高性能低功耗传感器件的合成及研究。在相关领域期刊发表SCI论文60多篇。

2、模拟集成电路设计（专业硕士）

教学： 承担兰州大学物理学院微电子专业《微电子制造工艺》的教学工作； 承担兰州大学物理学院微电子专业《半导体器件物理》的辅助教学工作； 担任本科《微电子专业实验》课程及物理相关专业《近代物理实验》课程中“塞曼效应”、“激光拉曼光谱”、“Pn结电容测试”“锁相放大器”实验的讲授教师。

1. Beixi An, et al, Yanrong Wang*, Erqing Xie*.Observation on Switching Properties of WO₃-Based H₂ Sensor Regulated by Temperature and Gas Concentration, ACS Sensors, 2024.
2. Ruixia Li, et al, Yanrong Wang*, Erqing Xie*. Unraveling the Effect of Oxygen Vacancy on WO₃ Surface for Efficient NO2 Detection at Low Temperature,  ACS Applied Materials Interface, 2024.
3. Yifan Yang, et al, Yanrong Wang*, Erqing Xie*. Room temperature ppb level-NO₂ sensor based on WS₂ with Fe -ni co-catalyst modification. Applied Surface Science, 2024.
4. Jiandong Jiang, et al, Yanrong Wang, Qi Wang*, Deyan He. Hardware‐Level Image Recognition System Based on ZnO Photo‐Synapse Array with the Self‐Denoising Function, Advanced Functional Materials, 2023.
5. Peizhe Wang, et al, Yanrong Wang*, Erqing Xie.* High Response of ZIF-8-Derived ZnO Nanorods to Low-Concentration Ethylene Glycol, ACS Applied Nano Materials, 2023.
6. Zhe Liu, et al, Yanrong Wang*, Shanglong Peng*. Low-temperature Gas Sensor with Good Long-term Stability Based on Co₃O₄ /Ti₃C₂T Heterojunction, Sensor and Acutuators B Chemical, 2023.
7. Qiao Wang, et al, Yanrong Wang*,Erqing Xie*. Au-Decorated WO₃-Based Sensor for Chemiresistive Detection of NO₂ at 80 °C, Sensor and Acutuators B Chemical, 2023.
8. Jianjun Li, et al, Yanrong Wang*, Erqing Xie*. Ru modulates the catalytic activity of Pt to modify WO₃ nanowires for high-performance hydrogen sensing at near room temperature, Applied Surface Science, 2023.
9. Beixi An, et al, Yanrong Wang*, Erqing Xie*. Photothermally-Assisted Pt-Modified WO₃ Nanosphere Structures for Highly Efficient H₂ Sensing, CRYSTENGCOMM，2023.
10. Zhengkun Wu, Yanrong Wang*, et al, Erqing Xie*. SnO₂ Grains with Abundant Surface Oxygen Vacancies for the Ultra-sensitive Detection of NO₂ at Low Temperature, Applied Surface Science, 2022
11. Qiongling Ding, et al, Yanrong Wang*, Deyan He*. Fluoride-assisted highly-active tungsten oxide with modulating exposed facets and defect sites for efficient ppb-level acetone detection, Applied Surface Science, 2022.
12. Zhengkun Wu, Yanrong Wang*, et al, Erqing Xie*. UV Irradiation of Au-Modified SnO₂ Nanorods Enabling the Rapid Detection of Low-Concentration NO₂ at Room Temperature. IEEE SENSORS JOURNAL, 2022.
13. Xichao Mo, et al, Yanrong Wang*, Erqing Xie*. In-situ oriented Sc-Co₃O₄ nanowire arrays for highly efficient ethanol detection, Journal of Alloys and Compounds, 2022.
14. Qiao Wang, Yanrong Wang*, et al, Erqing Xie*. Sea urchins-like WO₃ as a material for resistive acetone gas sensors, Sensor and Acutuators B Chemical, 2021.
15. Qiao Wang, Yanrong Wang*, et al, Erqing Xie*. Ex-situ XPS Analysis of Yolk-shell Sb₂O₃/WO₃ for Ultra-fast Acetone Resistive Sensor, Journal of Hazardous Materials, 2021.
16. Beixi An, et al, Yanrong Wang*, Erqing Xie*. Bimetal Pd/Ni functionalized WO₃ nanospheres for sensitive low- concentration hydrogen detection，CRYSTENGCOMM, 2021.
17. Yibing Luo, et al, Yanrong Wang*, Erqing Xie*. Ultrahigh-response hydrogen sensor based on PdO/NiO co-doped In₂O₃ nanotubes, Journal of Colloid and Interface Science, 2021.
18. Jianpeng Li, et al, Yanrong Wang*, Erqing Xie*. Design of size-controlled Au nanoparticles loaded on the surface of ZnO for ethanol detection, CRYSTENGCOMM, 2021.
19. Jianjun Li, et al, Yanrong Wang*, Deyan He.A highly stable and sensitive ethanol sensor based on Ru-decorated 1D WO₃ nanowires, RCS Advances, 2021
20. Xu Cheng, et al, Yanrong Wang*, Erqing Xie*.Microscopic Nature of Gas Adsorption on WO₃ Surfaces: Electron Interaction and Localization. Journal of Physical Chemistry Letters, 2020.
21. Jinglong Bai, et al, Yanrong Wang*, Erqing Xie*. Functionalization of 1D In₂O₃ nanotubes with abundant oxygen vacancies by rare earth dopant for ultra-high sensitive ethanol detection, Sensor and Acutuators B Chemical, 2020.
22. Qiao Wang, et al, Yanrong Wang*, Erqing Xie*.W-doped NiO as a Material for Selective Resistive Ethanol Sensors, Sensor and Acutuators B Chemical, 2020.
23. Jinglong Bai, et al, Yanrong Wang*, Erqing Xie*. Ni/Au bimetal decorated In₂O₃ nanotubes for ultra-sensitive ethanol detection, Sensor and Acutuators B Chemical, 2020.
24. Qiao Wang, et al, Yanrong Wang*, Xiaojun Pan*. Design of NiCo₂O₄@SnO₂ heterostructure nanofiber and their low temperature ethanol sensing properties, Journal of Alloys and Compounds, 2020.
25. Yanrong Wang, Kang Zhang, Jianping Zou, Xinghui Wang, Leimeng Sun, Taihong Wang*, Qing Zhang*. Functionalized horizontally aligned CNT array and random CNT network for CO₂ sensing. Carbon, 2017.
26. Yanrong Wang, Hui Huang, Qingshui Xie, Yuanpeng Wang, Baihua Qu*. Rational design of graphene-encapsulated NiCo₂O₄ core-shell nanostructures as an anode material for sodium-ion batteries. Journal of Alloys and Compounds, 2017.
27. Yanrong Wang, Bin Liu, Songhua Xiao, Xinghui Wang, Leimeng Sun, Han Li, Qiuhong Li, Qing Zhang*, Taihong Wang*. Low-Temperature H₂S Detection with Hierarchical Cr-Doped WO₃ Microspheres. ACS Applied Materials & Interfaces, 2016.
28. Yanrong Wang, B Liu, S Xiao, H Li, L Wang, D Cai, D Wang, Y Liu, Q Li* and T Wang*. “High performance and Negative Temperature Coefficient of Low Temperatures Hydrogen Gas Sensor using Palladium decorated Tungsten Oxide", J. Mater. Chem. A, 2014.
29. Yanrong Wang, B Liu, D Cai, H Li, Y Liu, D Wang, L Wang, Q Li and T Wang*. “Room-temperature hydrogen sensor based on grain-boundary controlled Pt decorated In₂O₃ nanocubes", Sensor and Acutuators B Chemical, 2014.
30. Bin Liu,Wuyuan Xie, Han Li, Yanrong Wang, Daoping Cai, Dandan Wang, Lingling Wang, Yuan Liu, Qiuhong Li and Taihong Wang*. Surrounding Sensitive Electronic Properties of Bi₂Te₃ Nanoplates-Potential Sensing Applications of Topological Insulators. Scientific Reports, 2014.
31. Han Li, Bin Liu, Daoping Cai, Yanrong Wang, Ling Mei, Yuan Liu, Linging Wang, Danan Wang, Qiuhong Li and Taihong Wang*. High-temperature humidity sensors based on WO₃-SnO₂ composite hollow nanospheres”. Journal of Materials and Chemistry A. 2014.  
32. Daoping Cai, Danan Wang, Bin Liu, Yanrong Wang, Yuan Liu, Han Li, Hui Huang, Qiuhong Li and Taihong Wang*. Comparison of electrochemical performances of the NiMoO₂ nanorods and hierarchical nanospheres for surpercapacitor applications. ACS Applied Material& Interfaces, 2013.
33. Bin Liu, Daoping Cai, Danan Wang, Lingling Wang, Yanrong Wang, Han Li and Taihong Wang*. Improved room-temperature hydrogen sensing performance of directly formed Pd/WO₃ nanocomposites. Sensor and Acutuators B Chemical, 2013.

• 主持国家自然科学基金青年项目1项
• 甘肃省面上项目1项
• 甘肃省青年基金项目1项
• 兰州大学中央高校基金科研业务费专项基金项目3项
• 企业横向项目1项
• 参与国家自然科学基金面上项目1项。

• 2017年度福建省博士研究生优秀毕业论文
•  2016-2017年度博士生国家奖学金
• 2023年 兰州大学 优秀共产党员
• 2023年 本科毕业论文优秀指导老师
• 2023年 兰州大学课程思政建设成果比赛三等奖
• 2024年 西部联盟第一届课程思政案例大赛二等奖