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王丽萍老师简介
作者:  来源:    日期:2021-11-05    浏览次数:


 

所属部门

球盟会qm9-环境科学与工程系

职称

副教授

/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,球盟会qm9地环学院环境工程系,副教授

2021.04-2023.12,球盟会qm9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=9.7JCR Q1 Top)

[3] L. Wang, Y. Xue*, Z. Liu*, et.al., Electronic structure regulation of an S-scheme CuBi2O4/Sr0.5NaTaO3 heterojunction with efficient carrier spatial transfer. Separation and Purification Technology, 317 (2023) 123856. (IF=8.6JCR 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=9.9JCR 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, Chemosphere273 (2021) 129748. (IF=8.8JCR 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=7.4JCR 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=6.16JCR 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=22.1JCR 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=8.6JCR 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=8.8JCR 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=6.7JCR 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 Top2021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=8.6JCR 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=6.4JCR 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=6.4JCR 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=1.65JCR 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=8JCR Q1 )

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

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

 

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