个人简历
1999.9-2003.7:天津大学理学院应用物理专业,学士学位;天津大学计算机科学与技术专业,双学位(学士);2003.9-2006.3:天津大学理学院材料物理与化学专业,硕士学位;2007.9-2010.7:南开大学信息学院物理电子学专业,博士学位。2009.5-2009.11:悉尼大学电子显微中心;2017.12-2018.12:悉尼大学物理系,博士后。
在研方向
1. 机器学习开发新型纳米材料用于电催化二氧化碳还原
2. 用于人工神经网络的忆阻器件开发
3. 新型热界面材料设计与开发
讲授课程
本科生课程:热力学与统计物理(54学时),纳电子材料与器件原理 (54学时)
社会兼职
ACS Energy Letters, Advanced Energy Materials, Applied Catalysis B: Environmental, Chemical Engineering Journal, Journal of Material Chemistry A, Chem Sus Chem, Carbon, Applied Surface Science等国际期刊审稿人。
天津物理学会理事;天津真空学会理事。
科研项目/成果/获奖/专利
主持和参与的科研项目:
* 助催化剂位点在半导体表面的光调控和光催化性质研究
* 纳米磁性金属–有机半导体颗粒薄膜的反常霍尔效应研究
* 基于有机半导体的全分解水光催化体系构建与性质研究
* 新型四氧化三铁/有机半导体/金属复合薄膜自旋相关输运性质研究
* 纳米磁性金属颗粒薄膜的磁电阻效应及器件应用
* 新型半金属/有机半导体自旋阀的自旋相关输运性质研究
* 长脉宽LAL技术制备II-VI族半导体量子点
* 新型全固态光催化体系的构建及其可见光催化性能和机理的研究
* 基于氧化物稀磁半导体的新型磁性金属颗粒薄膜的巨霍尔效应及应用
* 超高灵敏度、极宽温区的新型霍尔元件研制
* 纳米铁磁金属颗粒薄膜的巨霍尔效应及应用
* 纳米磁性金属/有机半导体颗粒薄膜的自旋相关输运性质
* 钴基三角晶格体系的奇异量子相及其电子态性质研究
* 关联的狄拉克费米子体系中新奇的量子态及掺杂效应研究
* 超高压下BCxN三元化合物的制备和相变机制研究
* 微介质锥、纳金属锥和纳金属锥孔中的光场调控
2017年:“过渡金属氧化物的合成、结构及其光电磁性质的机理研究”,河北省自然科学三等奖,第二完成人。
授权专利:
12、发明人:程雅慧;靳昊坤;刘晖,一种g-C3N4/Ag/AgCl/ZnO复合光催化剂的制备方法及产品,专利号:202211459090.1,授权公告日:2024.5.3;
11、发明人:程雅慧;李岩;张瑞;陈菲菲;刁凌雪;刘晖,一种反常霍尔元件及其制备方法,专利号:202111109797.5,授权公告日:2021.12.10;
10、发明人:程雅慧;郑灵程;刘晖,一种Fe/C60颗粒薄膜霍尔效应材料及制备方法,专利号:201910369713.8,授权公告日:2021.7.13;
9、发明人:刘晖;张瑞;程雅慧;孙兴军,金属/多晶面Cu2O复合可调控光催化剂及其制备方法,专利号:201911199059.7,授权公告日:2021.6.1;
8、发明人:程雅慧;孙兴军;刘晖;张瑞,一种以铜纳米片为支撑骨架的有机光阴极及其制备方法,专利号:201911202026.3,授权公告日:2021.3.26;
7、发明人:程雅慧;贺婕;刘晖,一种Cu2O@Cu/AgBr复合光催化剂及其制备方法,专利号:201610382030.2,授权公告日:2018.12.25;
6、发明人:程雅慧 ; 贺婕 ; 刘晖 ; 刘孟寅,一种颗粒薄膜磁电阻器件及制备,专利号:201410242512.9,授权公告日:2017.1.8;
5、发明人:程雅慧 ; 贺婕 ; 刘晖 ; 刘孟寅 ; 王卫超 ; 王维华 ; 卢峰,一种Fe/P3HT颗粒薄膜磁电阻器件及制备,专利号:201410242513.3,授权公告日:2017.1.8;
4、发明人:程雅慧,刘晖,贺婕,胡啸宇,王卫超,王维华,卢峰,一种Ni-Ni2O3纳米复合材料,专利号:201410242512.9,授权公告日:2016.05.25;
3、发明人:程雅慧,李鲁艳,罗晓光,刘晖,用于霍尔元件的新型薄膜材料,专利号:ZL201010123102.4,授权公告日:2013.2.22;
2、发明人:刘晖,程雅慧,一种纳米晶氮化铁薄膜材料及其用途,专利号:ZL 200810153328.1,授权公告日:2011.6.15;
1、发明人:刘晖,程雅慧,张晓,李鲁艳,王维华,罗晓光,一种调节多晶Fe3O4薄膜材料电阻率的方法,专利号:ZL200810151233.6,授权公告日:2010.6.2。
论文/专著/教材
第一作者及通讯作者论文: (*为通讯作者)
35. Y. Zhang, F. Chen, X. Yang, Y. Guo, X. Zhang, H. Dong, W. Wang, F. Lu, Z. Lu, H. Liu*, H. Liu*, Y. Xiao*, Y. Cheng*, Electronic metal-support interaction modulates Cu electronic structures for switching between CH4 and C2 products in CO2 electroreduction, Nature Communications, 16, 1956 (2025).
34. Y. Zhang, F. Chen, G. Gao, M. Xu, Y. Song, C. Sun, X. Zhang, X. Zhang, H. Dong, W. Wang, F. Lu, Z. Lu, R. Zhang, H. Liu*, H. Liu*, Y. Cheng*, Strong electronic interaction in Cu2O/Al2O3 interface for stable electroreduction of CO2 to multi-carbon with ampere-level current density, Nano Energy, 135, 110657 (2025).
33. Y. Zhang, F. Chen, X. Hao, Y. Liu, W. Wu, X. Zhang, Z. Zang, H. Dong, W. Wang, F. Lu, Z. Lu, H. Liu*, H. Liu*, F. Luo, Y. Cheng*, Enhanced interfacial effect-induced asymmetric coupling boost electroreduction of CO2 to ethylene, Applied Catalysis B: Environment and Energy, 344, 123666 (2024).
32. F. Chen, Y. Zhang, C. Sun, Y. Song, G. Gao, M. Xu, H. Dong, F. Lu, W. Wang, H. Liu*, Y. Cheng*, Electrochemical reduction reconstruction of Fe3O4-based nanocatalysts for enhanced oxygen evolution reaction, ACS Applied Nano Materials, 8, 693-701 (2024)
31. F. Chen, R. Zhang, Y. Zhang, X. Hao, Y. Liu, M. Xu, C. Sun, Y. Song, G. Gao, H. Dong, F. Lu, W. Wang, H. Liu*, Y. Cheng*, Special atmosphere annealed Co3O4 bifunctional catalysts with oxygen defects for high-efficient water splitting, Applied Surface Science, 657, 159839 (2024).
30. F. Chen, Y. Zhang, X. Hao, Y. Liu, Y. Song, G. Gao, M. Xu, C. Sun, H. Liu, X. Zhang, Z. Lu, H. Dong, F. Lu, W. Wang, H. Liu*, Y. Cheng*, Monometallic interphase synergistic Ni-based catalysts prepared by facile magnetron sputtering for efficient alkaline hydrogen evolution, Journal of Alloys and Compounds, 976, 173103 (2024).
29. Y. Zhang, R. Zhang, F. Chen, F. Zhang, Y. Liu, X. Hao, H. Jin, X. Zhang, Z. Lu, H. Dong, F. Lu, W. Wang, H. Liu*, H. Liu*, Y. Cheng*, Mass-transfer-enhanced hydrophobic Bi microsheets for highly efficient electroreduction of CO2 to pure formate in a wide potential window, Applied Catalysis B: Environment and Energy, 322, 122127 (2023).
28. R. Zhang, F. Chen, H. Jin, Y. Zhang, X. Hao, Y. Liu, T. Feng, X. Zhang, Z. Lu, W. Wang, F. Lu, H. Dong, H. Liu*, H. Liu*, Y. Cheng*, Highly stability Cu+ species in hollow Cu2O nanoreactors by modulating cavity size for CO2 electroreduction to C2+ products, Chemical Engineering Journal, 461, 142052 (2023).
27. L. Diao, Y. Liu, F. Chen, H. Pan, D. P. Lara, H. Liu, Y. Cheng*, F. Luo*, Improving the activity of electrochemical reduction of CO2 to C1 products by oxidation derived copper catalyst, Materials Reports: Energy, 1, 100180 (2023).
26. X. Hao, F. Chen, Y. Zhang, Y. Liu, G. Gao, Y. Song, M. Xu, C. Sun, X. Zhang, Z. Lu, H. Dong, F. Lu, W. Wang, H. Liu, H. Liu*, R. Zheng*, Y. Cheng*, Magnetic-field-assisted electrodeposition regulates the Ni:Fe ratio for water oxidation, Materials Today Sustainability, 24, 100556 (2023).
25. L. Diao, L. Zheng, R. Zhang, F. Chen, Y. Li, W. Wang, F. Lu, L. Chen, H. Liu*, H. Dong*, Y. Cheng*, Titanium nitride protected cuprous oxide photocathode for stable and efficient water reduction, ACS Applied Energy Materials, 5, 770-776 (2022).
24. J. He, J. Qu, R. Zhang, Z. Zhang, H. Liu, X. Zhang, Z. Lu, F. Lu, H. Dong, H. Liu*, W. Wang*, R. Zheng, Y. Cheng*, A superior photocatalytic adsorbent with charge redistribution for rapid removal of pollutants from water, Applied Surface Science, 606, 154865 (2022).
23. L. Zheng, L. Diao, R. Zhang, X. Sun, Q. Lv, F. Chen, Y. Li, H. Liu, X. Zhang, Z. Lu, W. Wang, F. Lu, H. Dong, H. Liu*, L. Li*, R. Zheng, Y. Cheng*, Design and in situ growth of Cu2O-blended heterojunction directed by energy-band engineering: toward high photoelectrochemical performance, Advanced Materials Interfaces, 9, 2101690 (2022).
22. F. -F. Zhang, C. -Q. Cheng, J. -Q. Wang, L. Shang, Y. Feng, Y. Zhang, J. Mao, Q. -J. Guo, Y. -M. Xie, C. -K. Dong, Y. -H. Cheng*, H. Liu*, X. -W. Du*, Iridium oxide modified with silver single atom for boosting oxygen evolution reaction in acidic media, ACS Energy Letters, 6, 1588-1595 (2021).
21. R. Zhang, X. Sun, L. Zheng, H. Liu, X. Zhang, Z. Lu, W. Wang, F. Lu, H. Dong, H. Liu*, R. Zheng*, Y. Cheng*, Light-controlled convergence of photogenerated carriers and reactants to boost photocatalytic performance, Journal of Catalysis, 400, 1-9 (2021).
20. X. Zhang, R. Zhang, T. Yang, Y. Cheng*, F. Li*, W. Li, J. Huang, H. Liu, R. Zheng, Facile fabrication of hybrid perovskite single-crystalline photocathode for photoelectrochemical water splitting, Energy Technology, 9, 2000965 (2021).
19. R. Zhang, X. Sun, L. Zheng, L. Diao, F. Chen, Y. Li, S. Wang, Y. Wang, W. Wang, F. Lu, H. Dong, H. Liu*, Y. Cheng*, Organic photocathode supported by copper nanosheets array for overall water splitting, Chemistry-A European Journal, 28, e202103495 (2021).
18. D. Feng, J. Qu, R. Zhang, X. Sun, L. Zheng, H. Liu, X. Zhang, Z. Lu, F. Lu, W. Wang, H. Dong, Y. Cheng*, H. Liu*, R. Zheng, ITO regulated high-performance n-Si/ITO/a-Fe2O3 Z-scheme heterostructure towards photoelectrochemical water splitting, Journal of Catalysis, 381, 501-507 (2020).
17. L. C. Zheng, Z. H. He, R. Zhang, J. T. Qu, D. Q. Feng, J. He, H. S. Chen, F. Yun, Y. H. Cheng*, Z. Q. Li, H. Liu, X. X. Zhang, R. K. Zheng*, Enhancement of anomalous Hall effect via interfacial scattering in metal-organic semiconductor Fex(C60)1-x granular films near the metal-insulator transition, Advanced Functional Materials, 1808747 (2019).
16. L. C. Zheng, J. He, D. Q. Feng, R. Zhang, H. Liu, X. H. Zhang, Z. M. Lu, W. C. Wang, W. H. Wang, F. Lu, H. Dong, Y. H. Cheng*, L. Y. Li, R. K. Zheng*, H. Liu, Magnetoresistance crossover in cobalt/poly(3-hexylthiophene,2,5-diyl) hybrid films due to the interface effect, Physical Review Applied, 11(3), 034024 (2019).
15. J. He, L. C. Zheng, D. Q. Feng, M. Y. Liu, D. W. Shao, Z. M. Lu, X. H. Zhang, W. H. Wang, W. C. Wang, F. Lu, H. Dong, Y. H. Cheng*, H. Liu*, H. Liu, R. K. Zheng, Interfacial effects on the microstructures and magnetoresistance of Ni80Fe20/P3HT/Fe organic spin valves, Journal of Alloys and Compounds, 769, 991-997 (2018).
14. D. W. Shao, L. C. Zheng, D. Q. Feng, J. He, R. Zhang, H. Liu, X. H. Zhang, Z. M. Lu, W. C. Wang, W. H. Wang, F. Lu, H. Dong, Y. H. Cheng*, H. Liu*, R. K. Zheng, TiO2-P3HT:PCBM photoelectrochemical tandem cell for solar-driven overall water splitting, Journal of Material Chemistry A, 6(9), 4032-4039 (2018).
13. J. He, Y. Cheng*, T. Wang, D. Feng, L. Zheng, D. Shao, W. Wang, W. Wang, F. Lu, H. Dong, R. Zheng, H. Liu, Enhanced photocatalytic performances and magnetic recovery capacity of visible-light-driven Z-scheme ZnFe2O4/AgBr/Ag photocatalyst, Applied Surface Science, 440, 99-106 (2018).
12. D. Q. Feng, Y. H. Cheng*, J. He, L. C. Zheng, D. W. Shao, W. C. Wang, W. H. Wang, F. Lu, H. Dong, H. Liu, R. K. Zheng, H. Liu, Enhanced photocatalytic activities of g-C3N4 with large specific surface area via a facile one-step synthesis process, Carbon, 125, 454-463 (2017).
11. D. Shao, Y. Cheng*, J. He, D. Feng, L. Zheng, L. Zheng, X. Zhang, J. Xu, W. Wang, W. Wang, F. Lu, H. Dong, L. Li, R. Zheng, H. Liu, A spatially separated organic-inorganic hybrid photoelectrochemical cell for unassisted overall water splitting, ACS Catalysis, 7, 5308-5315 (2017).
10. J. He, D. W. Shao, L. C. Zheng, L. J. Zheng, D. Q. Feng, J. P. Xu, X. H. Zhang, W. C. Wang, W. -H. Wang, F. Lu, H. Dong, Y. H. Cheng*, H. Liu*, and R. K. Zheng, Construction of Z-scheme Cu2O/Cu/AgBr/Ag photocatalyst with enhanced photocatalytic activity and stability under visible light, Applied Catalysis B: Environmental, 203, 917-926 (2017).
9. J. He, C. Wang, Y. Cheng*, M. Liu, W. Wang, W. Wang, F. Lu, K. Gao, Z. Li, and H. Liu*, Tunable electric properties of half-metallic ZnxFe3−xO4 and the characteristics of ZnxFe3−xO4 /n-type Si interfaces, Journal of Physics D: Applied Physics, 49, 095301 (2016).
8. Y. H. Cheng, Y. Lin, J. Xu, J. He, T. Wang, G. Yu, D. Shao, W. -H. Wang, F. Lu, L. Li, X. Du, W. Wang, H. Liu, and R. Zheng, Surface plasmon resonance enhanced visible-light-driven photocatalytic activity in Cu nanoparticles covered Cu2O microspheres for degrading organic pollutants, Applied Surface Science, 366, 120-128 (2016).
7. H. B. Li, M. Liu, F. Lu, W. Wang, Y. H. Cheng*, S. Song, Y. Zhang, Z. Q. Li, J. He, H. Liu*, X. Du, and R. K. Zheng, Extraordinary Hall effect and universal scaling in Fex(ZnO)1-x granular thin films at room temperature, Applied Physics Letters, 106, 012401 (2015).
6. X. B. Cao, W. H. Wang, X. H. Zhang, L. Y. Li, Y. H. Cheng*, H. Liu, S. C. Du, and R. K. Zheng, Magnetic properties of fluffy Fe@α-Fe2O3 core-shell nanowires, Nanoscale Research Letters, 8, 423 (2013).
5. Y. H. Cheng, X. H. Zhang, L. Y. Li, X. G. Luo, H. Liu, W. H. Wang, and R. K. Zheng, Large coercivity and exchange bias in [Fe1−δ(FeO)δ]x(TiO2)1−x granular films, Applied Physics Letters, 102(19), 192403 (2013).
4. Y. H. Cheng, L. Y. Li, W. H. Wang, H. Liu, S. W. Ren, X. Y. Cui, and R. K. Zheng, Tunable electrical and magnetic properties of half-metallic ZnxFe3-xO4 from first principles, Physical Chemistry Chemical Physics, 13(48), 21243 (2011).
3. Y. H. Cheng, L. Y. Li, W. H. Wang, X. G. Luo, H. Liu, and R. K. Zheng, Structural, electrical, and magnetic properties of polycrystalline Fe3-xPtxO4 (0≤x≤0.10) films, Journal of Applied Physics, 109(7), 073905 (2011).
2. Y. H. Cheng, H. Liu, H. B. Li, R. K. Zheng, and S. P. Ringer, Annealing effects on the structural, magnetic and electrical properties of the nanocrystalline Fe3O4 films, Journal of Physics D: Applied Physics, 42(21), 215004 (2009).
1. Y. H. Cheng, R. K. Zheng, H. Liu, Y. Tian, and Z. Q. Li, Large extraordinary Hall effect and anomalous scaling relations between the Hall and longitudinal conductivities in epsilon-Fe3N nanocrystalline films, Physical Review B, 80(17), 174412 (2009).
