王丽娟
满族,工学博士,讲师,硕士生导师,中央民族大学高层次人才青年知行学者
研究方向:半导体光电极光解水制氢及高附加值产品转化
Email: lijuanwang2018@163.com
1、学习与工作经历
教育背景:
2006-2010年,中央民族大学 应用物理学专业 理学学士
2010-2013年,中央民族大学 环境科学专业 工学硕士
2014-2018年,北京理工大学 材料科学与工程专业 工学博士
2012-2013年,美国波士顿学院和休斯敦大学 访问学生
工作经历:
2018-2019年,中国电子技术标准化研究院
2019年-至今,中央民族大学理学院
2、教学与科研成果
教学工作:
1.主讲本科生《材料科学基础(一)》、《纳米材料制备实验》、《纳米材料表征实验》、《材料科学与工程导论》、《纳米科学与技术》等课程。
2.作为副主编,出版教材《纳米材料制备与表征——理论与技术》(科学出版社,2021年)。
3.指导学生参加学科竞赛获得省部级奖项3项,指导研究生获北京市优秀毕业生1人(2025年),指导中央民族大学优秀硕士学位论文2篇(2023年、2022年)。
科研工作:
主要从事半导体光电极的可控设计及其在光解水制氢等领域的应用研究,已在国内外学术期刊发表SCI论文40余篇;授权国家发明专利2项。
部分代表性文章:
1.ZY Zheng, CQ S, LJ Wang*, YJ Liang*, WZ Wang*, et al. Charge transport channel and nonmetallic plasmon synergistically augment surface reaction kinetics and charge separation for efficient photoelectrochemical hydrogen evolution of CdS/TiN-sensitized Fe2V4O13 photoanode, Journal of Colloid And Interface Science, 2025.
2.DS Ni, XL Jia, WZ Wang, LJ Wang*, et al. Non-metal plasmonic TiN sensitized 2D CdS nanosheet arrays for efficient visible light-driven photoelectrochemical hydrogen evolution and photocatalytic degradation performance, Progress in Natural Science: Materials International, 2025.
3.T Jiang, MJ Lin, JL Fu*, LJ Wang*, Q Zhou, YJ Liang, WZ Wang*, et al. Non-metallic plasmonic effect and step-like charge transport channel synergistically accelerate surface reaction kinetics and charge separation of TiN/CdS-sensitized ZnO photoanode for efficient photoelectrochemical hydrogen evolution, Applied Catalysis B: Environmental and energy, 2025.
4.DS Li, JN Li, Q Zhou, WZ Wang, SC Liu, ZY Lan, Z Zhou, GL Zhang, B Zou, Y Jia, LJ Wang*. Integrating non-noble-metal plasmonic effect with interfacial engineering enhances photoelectrochemical H2 evolution and photocatalytic H2O2 production in multifunctional TiO2 nanorod arrays, Progress in Natural Science: Materials International, 2025.
5.T Jiang, JS Fu, YJ Liang, JL Fu, LJ Wang*, Q Zhou, WZ Wang*, et al. ZnFe2O4 nanosheets as an electron transport bridge and a hole mediator enhance solar-driven unbiased hydrogen generation of ZnO-based nanorod arrays photoanode. Fuel, 2024.
6.XL Jia, JN Li, YH Liu, WZ Wang, GL Zhang, Q Zhou*, LJ Wang*, et al. Band engineering for building cascading charge transport channels in ternary CdS-based nanorod array photoanode toward efficient photoelectrochemical H2 generation. Journal of Alloys and Compounds, 2024.
7.YJ Li, DS Li, WZ Wang, LJ Wang*, et al. Integrating a homojunction and a heterojunction to construct direct charge transport channel in ZnIn2S4 nanosheet arrays for boosting photoelectrochemical hydrogen evolution.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024.
8.JN Li, LJ Wang*, WZ Wang, XL Jia, YY Zhang, H Yang, YJ Li, Q Zhou*, et al. Cooperative effects of surface plasmon resonance and type-II band alignment to significantly boost photoelectrochemical H2 generation of TiO2/CdS/TiN nanorod array photoanode. Applied Catalysis B: Environmental, 2023, 334:122833.
9.LJ Wang, WZ Wang*, YL Chen, et al. Heterogeneous p-n junction CdS/Cu2O nanorod arrays: synthesis and superior visible-light photoelectrochemical performance. ACS Applied Materials &Interfaces, 2018,10:11652-11662.
10.LJ Wang, WZ Wang*, WW Zhang, et al. Superior photoelectrochemical properties of BiVO4 nanofilms enhanced by PbS quantum dots decoration. Applied Surface Science, 2018,427:553-560.
11.LJ Wang, GL Zhang,WZ Wang*, et al. Size effect and enhanced photocatalytic activity of CuO sheet-like nanostructures prepared by room temperature solution phase chemical method. Applied Surface Science, 2013, 271:136-140.
12.LJ Wang, Q Zhou, GL Zhang, WZ Wang*, et al. A facile room temperature solution-phase route to synthesize CuO nanowires with enhanced photocatalytic performance. Materials Letters, 2012, 74:217-219.
3、基金、奖励、荣誉和学术兼职
国家自然科学基金面上项目 2024-2027
国家自然科学基金青年项目 2021-2023
中央民族大学学术团队引领计划青年团队项目 2024
中央民族大学青年教师科研能力提升计划 2023
中央民族大学青年教师科研能力提升计划 2022
中央民族大学青年教师科研能力提升计划 2020
