徐婷婷，女，博士，教授，博士生导师。

主要从事钙钛矿太阳能电池，染料敏化和量子点敏化太阳能电池，聚合物基太阳能电池，纳米半导体材料等研究工作。在西北工业大学获得学士和硕士学位，2012年在美国南达科他州立大学（South Dakota State University）获得博士学位。2013年4月特评为西北工业大学副教授。2015年至2016年在日本九州工业大学进行博士后工作。曾获2011年度国家优秀自费留学生奖（Chinese Government Award for Outstanding Self-financed Students Abroad）以及2010 年度南达科他州立大学Sigma Xi 分会研究生研究奖 （SDSU Sigma Xi Chapter Graduate Student Research Award）。

主页介绍：https://teacher.nwpu.edu.cn/xutingting.html

工作经历

2022-至今  西北工业大学化学与化工学院   教授，博士生导师

2013-2022  西北工业大学化学与化工学院   副教授，硕士生导师，博士生导师

2015-2016  日本九州工业大学      博士研究员

荣誉

· 2021年度西北工业大学玛丽女王工程学院“优秀班主任”

· 2018年度西北工业大学“优秀班主任”

· 2017年度西北工业大学理学院“理学之星”优秀青年教师奖.

· 2016年度西北工业大学第九届“三航杯”大学生创业大赛优秀指导教师.

· 2016年度西安高新“创青春”陕西省大学生创业大赛优秀指导教师.

· 2011年度国家优秀自费留学生奖 (Chinese Government Award for Outstanding Self-financed Students Abroad).

· 2010 年度南达科他州立大学Sigma Xi 分会研究生研究奖 (SDSU Sigma Xi Chapter Graduate Student Research Award).

学术兼职

《Frontiers in Photonics》 Section Photovoltaic Materials and Devices, Associate Editor

期刊审稿人：Advanced Materials, Journal of Materials Chemistry A, ACS Applied Materials & Interfaces, ACS Applied Energy Materials, Solar Energy Materials & Solar Cells 等期刊通讯审稿人。

研究方向

1. 钙钛矿型太阳能电池

2. 染料敏化和量子点敏化太阳能电池

3. 聚合物基有机无机杂化太阳能电池

4. 纳米半导体材料

主持基金项目：

1. 国家自然科学基金项目

2. 陕西省自然科学基础研究计划

3. 中国博士后科学基金面上资助

4. 教育部留学回国人员科研启动基金项目

5. 中央高校基本科研业务费科研资助项目

6. 北京大学国家重点实验室开放课题

7. 西北工业大学引进人才科研启动费资助项目

8. 西北工业大学分析测试中心基础研究开放测试基金

9. 西北工业大学青年导师指导能力提升计划资助项目

参与国家重点研发计划，国家自然基金国际合作与交流项目，航空基金等多个项目

招生方向：

独立招收硕士生：学术型硕士：材料学，高分子化学与物理，应用化学；专业型硕士： 材料与化工。

独立招生博士生：化学

欢迎材料，化学专业以及对能源领域感兴趣的同学积极报考，将提供良好的科研平台，国际和国内高校访学，参加国内外会议的交流机会

主要出版物

学术成绩：

在学术成果方面，已累计发表SCI收录英文文章40多篇。第一作者/通讯作者论文主要发表在Energy & Environmental Science（IF＝30.289), Advanced Functional Materials (IF= 16.836), ACS Materials Letters, ACS Applied Materials & Interfaces, Solar Energy Materials and Solar Cells, Physical Chemistry Chemical Physics等国际期刊上，其中, ESI高被引论文2篇, 封面文章2篇。

期刊论文

1. Zou, K.; Li, Q.; Fan, J.; Tang, H.; Chen, L.; Tao, S.; Xu, T.; Huang, W., Pyridine Derivatives’ Surface Passivation Enables Efficient and Stable Carbon-Based Perovskite Solar Cells. ACS Materials Letters 2022, 4 (6), 1101-1111.

2. Hao, W.; Bo, X.; Xie, J.; Xu, T., Mechanical Properties of Macromolecular Separators for Lithium-Ion Batteries Based on Nanoindentation Experiment. Polymers 2022, 14 (17), 3664. (invited article)

3. Pu, X.; Yang, J.; Wang, T.; Cheng, S.; Cao, Q.; Zhao, J.; Chen, H.; Zhang, Y.; Xu, T.; Tojiboyev, I.; Salari, H.; Li, X., Gadolinium-incorporated CsPbI2Br for boosting efficiency and long-term stability of all-inorganic perovskite solar cells. Journal of Energy Chemistry 2022, 70, 9-17.

4. Tang, H.; Xu, T.; Qin, X.; Zou, K.; Lv, S.; Fan, J.; Huang, T.; Chen, L.; Huang, W., Carbon Quantum Dot-Passivated Perovskite/Carbon Electrodes for Stable Solar Cells. ACS Applied Nano Materials 2021, 4, 13339-13351.

5. Yang, Y.; You, J.; Zhang, J.; Su, H.; Du, X.; Hu, Y.; Xu, T.; Gao, L.; Liu, S. F., Cation Engineering for Effective Defect Passivation to Improve Efficiency and Stability of FA0.5MA0.5PbI3 Perovskite Solar Cells. ACS Applied Energy Materials 2021, 4 (8), 7654-7660.

6. Xu, T.; Zou, K.; Lv, S.; Tang, H.; Zhang, Y.; Chen, Y.; Chen, L.; Li, Z.; Huang, W., Efficient and Stable Carbon-Based Perovskite Solar Cells via Passivation by a Multifunctional Hydrophobic Molecule with Bidentate Anchors. ACS Applied Materials & Interfaces 2021, 13 (14), 16485-16497.

7. Xu, T.; Wan, Z.; Tang, H.; Zhao, C.; Lv, S.; Chen, Y.; Chen, L.; Qiao, Q.; Huang, W., Carbon Quantum Dot Additive Engineering for Efficient and Stable Carbon-based Perovskite Solar Cells. Journal of Alloys and Compounds 2021, 859, 157784.

8. Xu, T.; Kong, D.; Tang, H.; Qin, X.; Li, X.; Gurung, A.; Kou, K.; Chen, L.; Qiao, Q.; Huang, W., Transparent MoS2/PEDOT Composite Counter Electrodes for Bifacial Dye-Sensitized Solar Cells. ACS Omega 2020, 5 (15), 8687-8696.

9. Xu, T.; Sun, X.; Cao, W.; Qin, X.; Gurung, A.; Lv, S.; Chen, Y.; Chen, L.; Huang, W.; Qiao, Q., Improved Performance of Carbon Electrode Perovskite Solar Cells using Urea Treatment in Two-step Processing. ChemNanoMat 2020, 6 806-815.

10. Laskar, M. A. R.; Luo, W.; Ghimire, N.; Chowdhury, A. H.; Bahrami, B.; Gurung, A.; Reza, K. M.; Pathak, R.; Bobba, R. S.; Lamsal, B. S.; Chen, K.; Rahman, M. T.; Rahman, S. I.; Emshadi, K.; Xu, T.; Liang, M.; Zhang, W.-H.; Qiao, Q., Phenylhydrazinium Iodide for Surface Passivation and Defects Suppression in Perovskite Solar Cell. Advanced Functional Materials 2020, 30, 2000778.

11. Xu, T.; Zou, K.; Sun, X.; Wan, Z.; Tang, H.; Zhang, Y.; Chen, L.; Qiao, Q.; Huang, W., Effect of antisolvent treatment on PbI2 films for high performance carbon-based perovskite solar cells. Materials Letters 2020, 275, 128157.

12. Xu, T.; Cao, W.; Kong, D.; Qin, X.; Song, J.; Kou, K.; Chen, L.; Qiao, Q.; Huang, W., Enhanced catalytic property of transparent PEDOT counter electrodes for bifacial dye sensitized solar cells. Materials Today Communications 2020, 25, 101313.

13. Hao, W.; Kong, D.; Xie, J.; Chen, Y.; Ding, J.; Wang, F.; Xu, T., Self-Polymerized Dopamine Nanoparticles Modified Separators for Improving Electrochemical Performance and Enhancing Mechanical Strength of Lithium-Ion Batteries. Polymers 2020, 12 (3), 648.

14. Xu, T.; Kong, D.; Xi, Z.; Huang, T.; Qin, X.; Wu, H.; Kou, K.; Wang, R.; Chen, L.; Ma, T., Photoinduced Polyacrylate Based Polymer Electrolyte for Quasi-solid State Dye Sensitized Solar Cell Application. Engineered Science 2019, 7 (NA), 17-25.

15. Xu, T.; Hu, J.; Yang, Y.; Que, W.; Yin, X.; Wu, H.; Chen, L., Ternary system of ZnO nanorods/reduced graphene oxide/CuInS2 quantum dots for enhanced photocatalytic performance. Journal of Alloys and Compounds 2018, 734, 196-203.

16. Xu, T.; Hu, J.; Wei, P.; Qin, X.; Huang, T.; Chen, L.; Wu, H., Octahedron shaped lead sulfide nanocrystals as counter electrodes for quantum dot sensitized solar cells. Functional Materials Letters 2018, 11, 1850025.

17. Xu, T.; Hu, J.; Yang, Y.; Que, W.; Yin, X.; Wu, H.; Chen, L., Solid-state synthesis of ZnO nanorods coupled with reduced graphene oxide for photocatalytic application. Journal of Materials Science-Materials in Electronics 2018, 29 (6), 4888-4894.

18. Xu, T.; Li, J.; Gong, R.; Xi, Z.; Huang, T.; Chen, L.; Ma, T., Environmental effects on the ionic conductivity of poly(methyl methacrylate) (PMMA)-based quasi-solid-state electrolyte. Ionics 2018, 24 (9), 2621-2629.

19. Xu, T.; Wei, P.; Ren, X.; Liu, H.; Chen, L.; Tian, W.; Liu, S.; Guo, Z., Superior Cu2S/brass-mesh electrode in CdS quantum dot sensitized solar cells for dual-side illumination. Materials Letters 2017, 195, 100-103.

20. Xu, T.; Chen, L.; Guo, Z.; Ma, T., Strategic improvement of the long-term stability of perovskite materials and perovskite solar cells. Physical Chemistry Chemical Physics (invited perspective, cover article), 2016, 18 (39), 27026-27050.

21. Xu, T.; Venkatesan, S.; Galipeau, D.; Qiao, Q., Study of Polymer/ZnO Nanostructure Interfaces by Kelvin Probe Force Microscopy. Solar Energy Materials and Solar Cells 2013, 108, 246-251.

22. Xu, T.; Yan, M.; Hoefelmeyer, J. D.; Qiao, Q., Exciton migration and charge transfer in chemically linked P3HT-TiO2 nanorod composite. RSC Advances 2012, 2 (3), 854-862.

23. Xu, T.; Qiao, Q., Conjugated polymer-inorganic semiconductor hybrid solar cells. Energy & Environmental Science, (cover article) 2011, 4 (8), 2700-2720. (ESI highly cited paper)

24. Xu, T.; Chen, Q.; Lin, D.-H.; Wu, H.-Y.; Lin, C.-F.; Qiao, Q., Self-assembled thienylsilane molecule as interfacial layer for ZnO nanowire/polymer hybrid system. Journal of Photonics for Energy 2011, 1, 011107.

25. Qu, S.; Yu, Y.; Lin, K.; Liu, P.; Zheng, C.; Wang, L.; Xu, T.; Wang, Z.; Wu, H., Easy hydrothermal synthesis of multi-shelled La2O3 hollow spheres for lithium-ion batteries. Journal of Materials Science: Materials in Electronics 2018, 29, 1232-1237. (ESI highly cited paper)

26. Ren, Y.; Yang, L.; Wang, L.; Xu, T.; Wu, G.; Wu, H., Facile synthesis, photoluminescence properties and microwave absorption enhancement of porous and hollow ZnO spheres. Powder Technology 2015, 281, 20-27.

27. Qin, M.; Lan D.; Liu J.; Liang H.; Zhang L.; Xing H.; Xu, T.; Wu, H., “Synthesis of Single-component Metal Oxides with Controllable Multi-shelled Structure and their Morphology-related Applications”, Chemical Record, 2020, 20, 102-119.

28. Qin, X.; Huang, Y.; Wang, Y.; Xu, T.; Zhao, M., Hollow dual core-shell nanocomposite of nitrogen-doped Carbon@Bi12SiO20@Nitrogen-doped graphene as high efficiency catalyst for fuel cell. Electrochimica Acta 2019, 323, 134824.

29. Qin, X.; Huang, Y.; Wang, K.; Xu, T.; Wang, Y.; Wang, M.; Zhao, M.; Gao, Q., Highly Efficient Oxygen Reduction Reaction Catalyst Derived from Fe/Ni Mixed-Metal-Organic Frameworks for Application of Fuel Cell Cathode. Industrial & Engineering Chemistry Research 2019, 58 (24), 10224-10237.

30. Qin, X.; Huang, Y.; Wang, K.; Xu, T.; Wang, Y.; Liu, P.; Kang, Y.; Zhang, Y., Novel hierarchically porous Ti-MOFs/nitrogen-doped graphene nanocomposite served as high efficient oxygen reduction reaction catalyst for fuel cells application. Electrochimica Acta 2019, 297, 805-813;

31. Qin, X.; Huang, Y.; Wang, K.; Xu, T.; Li, S.; Zhao, M.; Wang, Y.; Chen, Q., Novel hexagonal Bi2O2CO3 porous nanoplate/nitrogen-doped graphene nanomaterials enhanced electrochemical properties for oxygen reduction reaction in acidic media for fuel cells. Carbon 2019, 152, 459-473. (ESI hot paper)

32. Zhao, H.; Chen, L.; Luan, X.; Zhang, X.; Yun, J.; Xu, T., Synthesis, pyrolysis of a novel liquid SiBCN ceramic precursor and its application in ceramic matrix composites. Journal of the European Ceramic Society 2017, 37 (4), 1321-1329.

33. Wang, Y.; Chen, L.; Xu, T.; Yan, Y.; Gu, J.; Yun, J.; Feng, J., High char yield novolac modified by Si-B-N-C precursor: Thermal stability and structural evolution. Polymer Degradation and Stability 2017, 137, 184-196.

34. Lan, C.; Zhao, S.; Xu, T.; Ma, J.; Hayase, S.; Ma, T., Investigation on structures, band gaps, and electronic structures of lead free La2NiMnO6 double perovskite materials for potential application of solar cell. Journal of Alloys and Compounds 2016, 655, 208-214.

35. Wang, J.; Xu, T.; Huang, X.; Li, H.; Ma, T., Recent progress of silicon composites as anode materials for secondary batteries. RSC Advances 2016, 6 (90), 87778-87790.

36. Wei, D.; Chen, L.; Xu, T.; Weiqi He, W.; Wang, Y., “Synthesis and Characterization of a Novel Borazine-type UV Photo-induced Polymerization of Ceramic Precursors”, Molecules, 2016, 21(6), 801.

37. Li, X.; Ren, X.; Xie, F.; Zhang, Y.; Xu, T.; Wei, B.; Choy, W. C., High-Performance Organic Solar Cells with Broadband Absorption Enhancement and Reliable Reproducibility Enabled by Collective Plasmonic Effects. Advanced Optical Materials 2015, 3 (9), 1220-1231.

38. He, W.; Chen, L.; Xu, T.; Wei, D.; Wang, Y., Synthesis of borosilazane as UV-curable borazine-type single source precursor for SiBCN ceramic materials. Ceramics International 2015, 41 (9, Part A), 10448-10455.

39. He, W.; Chen, L.; Xu, T.; Wei, D.; Wang, Y., Synthesis of Silicon Molecular Precursor Chlorosilyl Dichloroboryl Ethane (CSDE) through Experiment Optimization. Chemistry Letters 2015, 44 (1), 70-72.

40. Pan, S.; Xu, T.; Venkatesan, S.; Qiao, Q, Direct growth of CdSe nanorods on ITO substrates by co-anchoring of ZnO nanoparticles and ethylenediamine. Journal of Nanoparticle Research 2012, 14 (9).

书章节：

1. Xu, T., Qiao, Q.. Chapter title: "Organic Photovoltaics: Basic Concept and Device Physics", in Encyclopedia of Nanotechnology, published by Springer-Verlag, 2015. ISBN: 978-90-481-9750-7 (Print)978-90-481-9751-4 (Online). First and Second Edition.

会议：

1. 徐婷婷，“基于碳电极的钙钛矿太阳能电池的活性层调控研究”，2019中国材料大会-太阳能材料与器件分会，成都，2019.7.10-7.14. (邀请报告)。

2. Sun, X.; Xu, T.; et al., “Morphology Control of Perovskite Film for Improved Performance of Carbon Electrode Based Perovskite Solar Cells”. The 2nd International Conference on Laser and Photonic Technologies, Xi’an, June 29-July 1, 2019. (墙报).

3. Wan Z.; Xu, T.; et al., “Carbon Quantum Dots Incorporated Perovskite Film Formation for Improved Efficiency of Carbon Based Perovskite Solar Cells”, 第六届新型太阳能电池学术研讨会，北京，2019.5.25-5.26. (墙报).

4. Kong, D.; Xu, T.; et al., “Investigation on the transparent polymeric counter electrodes for bifacial light illumination in dye-sensitized solar cells”，第一届中国西北新能源材料与器件学术研讨会,2018.12.4

5. Gurung, A., Xu, T.; Qiao, Q., “Solar-Rechargeable Lithium Ion Battery Energy Storage”, 中国太阳级硅及光伏发电研讨会14th China Solar Grade Silicon and PV Power Conference (14th CSPV), Xi’an, 2018.11.8-10. (邀请报告)

6. Xu, T.; et al., “Polymer Gel Electrolyte for Quasi-solid State Dye Sensitized Solar Cells (QS-DSSCs) Applications”. China Photovoltaic Technology International Conference (CPTIC) 2017, Xi’an, China. March 30-31, 2017. (口头报告).