个人简介齐宇航，河北工业大学电子信息工程学院，元光学者，讲师。美国加州大学圣巴巴拉分校访问学者。研究方向为光催化化学机械抛光与光化学。主持国家自然科学基金青年项目、河北省自然科学基金青年项目、天津市教委科研项目等。主持横向项目铜阻挡层抛光液表面状态测试。以第一作者或通讯作者在Advanced Materials（影响因子：32.086）、 Advanced Functional Materials（影响因子：19.924）、ACS Nano（影响因子：18.027）、Small（影响因子：13.3）等杂质上发表论文14篇，获得SCI引用1900余次。

 

个人信息

邮箱：yuhangqi@hebut.edu.cn

所在部门：微电子技术与材料研究所

导师类型：硕士生导师（电子科学与技术、电子信息专硕）

谷歌学术：scholar.google.com/citations?user=y8xCDpgAAAAJ&hl=zh-CN&oi=ao

OrcID：orcid.org/0009-0004-2010-6571

 

科研项目

[1] 国家自然科学基金，30万，2025年。主持

[2] 河北省自然科学基金，4万，2024年。主持

[3] 天津市教委科研项目，2万，2023年。主持

[4] 横向项目，铜阻挡层抛光液表面状态测试，120万，2022年。主持

 

授课信息

[1] 量子力学与固体物理 本科生课程

[2] 化合物半导体材料与器件 本科生课程

[3] 创新创业训练 本科生课程

[4] 微电子薄膜科学与技术 研究生课程

 

学术论文

1.    Wang, S.;  Liu, Q.;  Shao, J.;  Pan, G.;  Qi, Y.; Qiu, M., MOF-derived Au functional CeO2/Co3O4 heterostructure gas sensor with moisture resistance for low-temperature and efficient toluene detection. Journal of Alloys and Compounds 2025, 1010, 177358.

2.    She, L.;  Di, Y.;  Zhai, L.;  Cheng, J.;  Pan, G.; Qi, Y., Dual functionality of DTPMP and OHA: Enhancement in removal rates and excellent surface quality of cobalt CMP. Electrochimica Acta 2025, 513, 145591.

3.    Di, Y.;  Pan, G.;  Lv, S.;  She, L.;  Zhai, L.; Qi, Y., Chemical mechanical polishing on cobalt-based barrier through dual functionality of salicylhydroxamic acid between the removal of copper and corrosion inhibition. Electrochimica Acta 2025, 514, 145689.

4.    Wang, S.;  Wang, M.;  Shao, J.;  Liang, X.;  Pan, G.; Qi, Y., Dual-Functional Tungsten-Doped NiO for Highly Sensitive Triethylamine Sensor with ppb Level Detection Limit. ACS Applied Materials & Interfaces 2024, 16 (38), 51354-51363.

5.    Fang, Q.;  Yang, X.;  Pan, G.;  Yang, X.; Qi, Y., Experimental and Density Functional Theory Study of Inhibitors on Cobalt Corrosion for Chemical Mechanical Planarization Process. ECS Journal of Solid State Science and Technology 2024, 13 (4), 044007.

6.    Liu, Y.;  Lu, Z.;  Wang, J.;  Lai, J.;  Li, Z.;  Zhang, C.; Qi, Y., Nano-CeO2  for the Photocatalytic Degradation of the Complexing Agent Citric Acid in Cu Chemical Mechanical Polishing. Applied Sciences 2024, 14 (18), 8285.

7.    He, Z.;  Zhou, J.;  Qi, Y.;  Luo, C.;  Wang, C.; Liu, J., Triple Synergism Effect of Ammonium Nitrilotriacetate on the Chemical Mechanical Polishing Performance of Ruthenium Barrier Layers. Small 2024, 20 (26), 2309965.

8.    Wang, M.;  Liu, H.;  Sun, C.;  Pan, G.;  Yang, X.;  Shao, J.;  Dong, J.; Qi, Y., High efficiency toluene sensor based on iron-doped nickel oxide triple-shell microspheres with high moisture resistance. Materials Science and Engineering: B 2024, 299, 117001.

9.    Cao, J.;  Liu, Q.;  Xia, R.;  Pan, G.;  Hu, L.; Qi, Y., Experimental and density functional theory study of benzohydroxamic acid as a corrosion inhibitor in chemical mechanical polishing of Co interconnects. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2023, 660, 130848.

10.  Ye, B.;  Pan, G.;  Yang, X.;  Qi, Y.;  Fang, Q.;  She, L.; Di, Y., Electrochemical corrosion behavior and theoretical simulation of cobalt in chemical mechanical polishing process. Electrochimica Acta 2023, 468, 143184.

11.  Xia, R.;  Hu, L.;  Cao, J.;  Pan, G.; Qi, Y., Characterization of Octyl Hydroxamic Acid as Inhibitor on Cu Chemical Mechanical Polishing. ECS Journal of Solid State Science and Technology 2023, 12 (5), 054003.

12.  Yan, X.;  Yang, X.;  Sun, Z.;  Sun, C.;  Hu, Z.;  Zhang, Y.;  Pan, G.;  Guo, L.;  Qi, Y.; Cheng, Y., PtPd NPs-functionalized metal–organic framework-derived α-Fe2O3 porous spindles for efficient low-temperature detection of triethylamine. Dalton Transactions 2023, 52 (37), 13367-13378.

13.  Wang, M.;  Shao, J.;  Liu, H.;  Qi, Y.;  He, P.;  Yue, S.;  Sun, C.;  Dong, J.;  Pan, G.; Yang, X., High-Performance N-Butanol Gas Sensor Based on Iron-Doped Metal–Organic Framework-Derived Nickel Oxide and DFT Study. ACS Applied Materials & Interfaces 2023, 15 (7), 9862-9872.

14.  Zhang, H.;  Zhang, J.;  Lai, J.;  Chen, Y.;  Tian, M.;  Pan, G.;  Yang, X.; Qi, Y., Nanoscale Surface Refinement of CoCrMo Alloy for Artificial Knee Joints via Chemical Mechanical Polishing. Materials 2024, 17 (1), 8.

15.  Cao, Y.;  Wang, S.;  Luo, C.;  Wang, C.;  Qi, Y.;  Yan, X.;  Wang, Q.; Yang, Y., The Role of Alanine in the Chemical Mechanical Polishing of Aluminum. ECS Journal of Solid State Science and Technology 2023, 12 (12), 124005.

16.  Dong, J.;  Liu, H.;  Sun, C.;  Shao, J.;  Wang, M.;  He, P.;  Qi, Y.;  Pan, G.; Yang, X., Low-temperature and high-efficient detection of triethylamine based on Pt/PtO2 loaded WO3 gas sensors. Journal of Alloys and Compounds 2023, 966, 171642.

17.  Sun, C.;  Liu, H.;  Shao, J.;  Pan, G.;  Yang, X.;  Wang, M.;  Dong, J.;  Zhu, M.; Qi, Y., Au-loaded Zn2SnO4/SnO2/ZnO nanosheets for fast response and highly sensitive TEA gas sensors. Sensors and Actuators B: Chemical 2023, 376, 132951.

18.  Wei, W.;  Wei, Z.;  Li, R.;  Li, Z.;  Shi, R.;  Ouyang, S.;  Qi, Y.;  Philips, D. L.; Yuan, H., Subsurface oxygen defects electronically interacting with active sites on In2O3 for enhanced photothermocatalytic CO2 reduction. Nature Communications 2022, 13 (1), 3199.

19.  Ning, S.;  Sun, Y.;  Ouyang, S.;  Qi, Y.; Ye, J., Solar light-induced injection of hot electrons and photocarriers for synergistically enhanced photothermocatalysis over Cu-Co/SrTiO3 catalyst towards boosting CO hydrogenation into C2–C4 hydrocarbons. Applied Catalysis B: Environmental 2022, 310, 121063.

20.  Qi, Y.;  Jiang, J.;  Liang, X.;  Ouyang, S.;  Mi, W.;  Ning, S.;  Zhao, L.; Ye, J., Fabrication of Black In2O3 with Dense Oxygen Vacancy through Dual Functional Carbon Doping for Enhancing Photothermal CO2 Hydrogenation. Advanced Functional Materials 2021, 31 (22), 2100908.

21.  Ning, S.;  Wang, S.;  Ouyang, S.;  Qi, Y.;  Yi, X.;  Hu, H.; Ye, J., Photocarrier-assisted photothermocatalysis of Fischer–Tropsch synthesis for the enhanced yield of C2–C4 hydrocarbons over a Co/SrTiO3 catalyst. Catalysis Science & Technology 2021, 11 (21), 7029-7034.

22.  Zhao, L.;  Qi, Y.;  Luzzatto-Fegiz, P.;  Cui, Y.; Zhu, Y., COVID-19: Effects of Environmental Conditions on the Propagation of Respiratory Droplets. Nano Letters 2020, 20 (10), 7744-7750.

23.  Qi, Y.;  Song, L.;  Ouyang, S.;  Liang, X.;  Ning, S.;  Zhang, Q.; Ye, J., Photoinduced Defect Engineering: Enhanced Photothermal Catalytic Performance of 2D Black In2O3−x Nanosheets with Bifunctional Oxygen Vacancies. Advanced Materials 2020, 32 (6), 1903915.

24.  Ning, S.;  Xu, H.;  Qi, Y.;  Song, L.;  Zhang, Q.;  Ouyang, S.; Ye, J., Microstructure Induced Thermodynamic and Kinetic Modulation to Enhance CO2 Photothermal Reduction: A Case of Atomic-Scale Dispersed Co–N Species Anchored Co@C Hybrid. ACS Catalysis 2020, 10 (8), 4726-4736.

25.  Zhang, Q.;  Yang, Z.;  Chen, X.;  Ning, S.;  Qi, Y.;  Liu, L.; Ye, J., Plasmon-Enhanced CO Selective Oxidation in H2 over Pt Nanoclusters Supported on Metallic Molybdenum Dioxide Nanocrystals. Advanced Materials Interfaces 2020, 7 (24), 2001657.

26.  Zhao, L.;  Qi, Y.;  Song, L.;  Ning, S.;  Ouyang, S.;  Xu, H.; Ye, J., Solar-Driven Water–Gas Shift Reaction over CuO/Al2O3 with 1.1 % of Light-to-Energy Storage. Angewandte Chemie International Edition 2019, 58 (23), 7708-7712.

27.  Liu, W.;  Xu, Q.;  Cui, W.;  Zhu, C.; Qi, Y., CO2-Assisted Fabrication of Two-Dimensional Amorphous Molybdenum Oxide Nanosheets for Enhanced Plasmon Resonances. Angewandte Chemie International Edition 2017, 56 (6), 1600-1604.

28.  Ren, Y.;  Xu, Q.;  Wang, C.;  Zheng, X.;  Jia, Y.;  Qi, Y.;  Zhou, Y.;  Yang, X.; Zhang, Z., CO2-Assisted Solution-Phase Selective Assembly of 2D WS2-WO3⋅H2O and 1T-2H MoS2 to Desirable Complex Heterostructures. ChemNanoMat 2017, 3 (9), 632-638.

29.  Ren, Y.;  Wang, C.;  Qi, Y.;  Chen, Z.;  Jia, Y.; Xu, Q., CO2-Induced Defect Engineering: A New Protocol by Doping Vacancies in 2D Heterostructures for Enhanced Visible-Light Photocatalysis. Applied Surface Science 2017, 419, 573-579.

30.  Tong, X.;  Qi, Y.;  Chen, J.;  Wang, N.; Xu, Q., Supercritical CO2-Assisted Reverse-Micelle-Induced Solution-Phase Fabrication of Two-Dimensional Metallic 1T-MoS2 and 1T-WS2. ChemNanoMat 2017, 3 (7), 466-471.

31.  Qi, Y.;  Xu, Q.;  Wang, Y.;  Yan, B.;  Ren, Y.; Chen, Z., CO2-Induced Phase Engineering: Protocol for Enhanced Photoelectrocatalytic Performance of 2D MoS2 Nanosheets. ACS Nano 2016, 10 (2), 2903-2909.

32.  Wang, N.;  Xu, Q.;  Xu, S.;  Qi, Y.;  Chen, M.;  Li, H.; Han, B., High-efficiency exfoliation of layered materials into 2D nanosheets in switchable CO2/Surfactant/H2O system. Scientific Reports 2015, 5 (1), 16764.

33.  Qi, Y.;  Wang, N.;  Xu, Q.;  Li, H.;  Zhou, P.;  Lu, X.; Zhao, G., A green route to fabricate MoS2 nanosheets in water–ethanol–CO2. Chemical Communications 2015, 51 (31), 6726-6729.

34.  Wang, N.;  Wei, F.;  Qi, Y.;  Li, H.;  Lu, X.;  Zhao, G.; Xu, Q., Synthesis of Strongly Fluorescent Molybdenum Disulfide Nanosheets for Cell-Targeted Labeling. ACS Applied Materials & Interfaces 2014, 6 (22), 19888-19894.