所属部门	天美麻痘精品入囗-环境科学与工程系
	职称	副教授
	博/硕导师	硕导
	研究方向	环境功能材料、水污染控制工程、DFT理论计算
王丽萍	电子邮箱	lipingwang@xust.edu.cn

教育背景

2018.10-2020.03，美国佐治亚理工大学，联培博士

2016.09-2020.12，长安大学水利与环境学院，博士

2013.09-2016.07，陕西师范大学地理科学与旅游学院，硕士

2009.09-2013.06，长安大学水利与环境学院，学士

工作经历

2023.12-至今，西安科技大学地环学院环境工程系，副教授

2021.04-2023.12，西安科技大学地环学院环境工程系，讲师

个人成果

1.学术论文

[1] L. Wang, F. Dong, et.al. W. Guan⁎,The precursor-guided hydrothermal synthesis of CuBi₂O₄/WO₃ heterostructure with enhanced photoactivity under simulated solar light irradiation and mechanism insight. Journal of Hazardous Materials, 381 (2020) 120956. (IF=13.6, JCR Q1 Top，高被引)

[2] L. Wang, Y. Li, C. Hou⁎, et.al. Construction of an S-scheme TiOF₂/HTiOF₃ heterostructures with abundant OVs and O-H groups: Performance, kinetics and mechanism insight, Journal of Colloid and Interface Science, 640 (2023) 15-30. (IF=9.7，JCR Q1 Top)

[3] L. Wang, Y. Xue*, Z. Liu*, et.al., Electronic structure regulation of an S-scheme CuBi₂O₄/Sr_0.5NaTaO₃ heterojunction with efficient carrier spatial transfer. Separation and Purification Technology, 317 (2023) 123856. (IF=8.6，JCR Q1 Top) 

[4] L. Wang, M. Zhang*, C. Hou* et.al., The Ovs surface defecting of an S-scheme g-C₃N₄/H₂Ti₃O₇ nanoheterostructures with accelerated spatial charge transfer. Journal of Colloid and Interface Science, 645(2023) 639-653. (IF=9.9，JCR Q1 Top)

[5] L. Wang, J. Guo, W. Guan*, et.al., Tuning the electronic structure of NaTaO₃ via Sr doping strategy for its enhanced photoactivity and optical property, Chemosphere，273 (2021) 129748. (IF=8.8，JCR Q1 Top)

[6] L. Wang, W. Guan*, J. Crittenden, et.al. Fabrication of the flower-flake-like CuBi₂O₄/Bi₂WO₆ heterostructure as efficient visible-light driven photocatalysts: Performance, kinetics and mechanism insight, Applied Surface Science, 495 (2019) 143521. (IF=7.4，JCR Q1 Top)

[7] L. Wang, J. Lee*, et.al. Fluorescence imaging technology (FI) for high-throughput screening of selenide-modified nano-TiO₂ catalysts. Chemical Communications, 52 (2016) 2944-2947. (IF=6.16，JCR Q1 Top)

[8] J. Li, et.al, J. Guo*, L.Wang*(通讯), Enhanced peroxymonosulfate activation by S-scheme AgI/Cu-BiVO₄ heterojunction for efficient photocatalytic organics degradation and Microcystis aeruginosa inactivation: Performance, interfacial engineering and mechanism insight, Applied Catalysis B: Environment and Energy, 351 (2024) 124007. (IF=22.1，JCR Q1 Top)

[9] Z. Liu*, B. Wei, K. Liu, L.Wang*(通讯). DBS− -doped polypyrrole/CNTs with 3D conductive architecture connected with MoS₂ as symmetrical electrodes for boosted CDI capability. Separation and Purification Technology, 345 (2024) 127380.(IF=8.6，JCR Q1 Top) 

[10]C. Lu, et.al., W. Shi*, L. Wang*(通讯). Construction of a floating photothermal-assisted photocatalytic system with a three-dimensional hollow porous network structure. Chemosphere. 346(2024)140634. (IF=8.8，JCR Q1 Top)

[11] M. Zhang,et.al. L. Wang*(通讯), C. Hou*, In situ fluorine migration in ZIF-67/F-TiO₂ Z-type heterojunction and its photocatalytic degradation mechanism of tetracycline hydrochloride. Applied Surface Science, 637 (2023) 157881. (IF=6.7，JCR Q1 Top)

[12] D. Yu†, L. Wang†, et.al, Tuning lewis acidity of iron-based metal-organic frameworks for enhanced catalytic ozonation, Chemical Engineering Journal, 404 (2021), 127075 (IF=15.1, 共同一作, JCR Q1 Top，2021年封面邀请)

[13] C.Hou, Zhou, X., et.al, L.Wang*(通讯), M. Zhang⁎. (2024). Promote the efficient co-combustion of toluene & CO in Pt/CeO₂ catalyst: Orientally adjusting the oxidized SMSI to optimize acid site and oxygen vacancy. Separation and Purification Technology, 347 (2024) 127557. (IF=8.6，JCR Q1 Top) 

[14] C. Hou, et.al, L.Wang*(通讯), Construction of an all-solid-state Z-scheme Ag@Ag₃PO₄/TiO₂-(F₂) heterostructure with enhanced photocatalytic activity, photocorrosion resistance and mechanism insight. Journal of Alloys and Compounds, 925 (2022) 166765. (IF=6.4，JCR Q1 Top)

[15] C. Hou, et.al, L. Wang*(通讯), Construction of an S-scheme g-C₃N₄/TiOF₂ Heterostructures with abundant O vacancies: Enhanced photocatalytic activity and mechanism Insight, Journal of Alloys and Compounds, 938 (2023) 168560. (IF=6.4，JCR Q1 Top)

[16] X. Shi, L.Wang, et.al, Dan Qu*. Enhancing water quality and ecosystems of reclaimed water-replenished river: A case study of Dongsha River, Beijing, China. Science of the Total Environment, 926 (2024) 172024

[17] Z. Ran†, L. Wang†, Fang, Ma, Li, Catalysts, 9 (11)：876, 2019. (IF=3.9，共同一作，JCR Q2).

[18] L. Wang, J. Guo, W. Guan*, et.al, Comparison of the photocatalytic performance of TiO₂/AC and TiO₂/CNT nanocomposites for methyl orange photodegradation, Water Science and Technology, 78 (2018) 1082-1093 (IF=1.65，JCR Q2）.

[19]C. Hou, Y. Li, ,Y. Li. Y. Xie, P. Luo, M. Zhang*, L.Wang*(通讯), Journal of Water Process Engineering, 56 (2023) 104585 (IF=8，JCR Q1 )

[20] Z. Liu, B. Wei, L. Wang*(通讯), Environmental Engineering Research. 2024 29(2): 230204. (IF=3.5，JCR Q1)

[21]C. Hou, P. Yuan, M. Niu, Y. Li, L.Wang*(通讯), M. Zhang⁎, New Journal of Chemistry 46(23). (IF=3.3，JCR Q2)

2.科研项目

Ø 2024.1-2026.12，国家自然科学基金青年项目“氧缺陷型S异质结印迹催化体系的电荷输运机制及其对抗生素的靶向降解研究”（No.52300217），主持人

Ø 2021.1-2024.12，国家自然科学基金面上项目“金属氧化物/硫化物/离子液体三元复合催化剂构建及其光催化降解聚木质素Cβ-0/Cα-Cβ键性能控制研究”（No.B081003.生物质能源化工），核心骨干。

Ø 2018.01-2019.12，陕西省自然科学基金面上项目“面向溢油污染治理的磁响应高疏水空心碳球的生物诱导合成”（S2018-JC-YB-1720），主要负责材料结构表征及计算整理，核心骨干。