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个人简介

教育背景 2010.09-2014.07 吉林大学 汽车工程学院 车辆工程 工学学士 2014.08-2017.10 新加坡国立大学(NUS) 工学院 机械工程 哲学博士(PhD) 导师:Prof. Seeram Ramakrishna (NUS), Prof. Qihua Xiong (NTU), Dr. Vijila Chellappan (IMRE, A*star) 工作经历 北京交通大学 理学院 物理系 副教授 新加坡南洋理工大学 (NTU) 能源研究所(ERI@N)研究员 (Research Fellow)

研究领域

光电子材料与器件 光电功能材料与器件物理

近期论文

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13. S. Ma, T. Ye (equal contribution), T. Wu, Z. Wang, Z. Wang, S. Ramakrishna, C. Vijila, L. Wei, Hollow rice grain-shaped TiO2 nanostructures for high-efficiency and large-area perovskite solar cells, Sol. Energy Mater. Sol. Cells, 2019,191, 389-398. 12. H. Yang, Y. Zhou, Y. Yang, D. Yi, T. Ye* T. D. Lam, D. Golberg, B. Bao, J. Yao, X. Wang, Crystal facet engineering induced anisotropic transport of charge carriers in a perovskite, J. Mater. Chem. C, 2018,6 (43), 11707-11713. 11. F. Lu, M. Zhou, K. Su, T. Ye*, Y. Yang, T. D. Lam, Y. Bando, X. Wang, Enhancing Capacitance of Nickel Cobalt Chalcogenide via Interface Structural Design, ACS Appl. Mater. Interfaces, 2018,11 (2), 2082-2092. 10. T. Ye, A. Bruno; G. Han; T. M. Koh; J. Li; N. F. Jamaludin; C. Soci; S. G. Mhaisalkar; W. L. Leong, Efficient and Ambient-air-stable Solar Cell with Highly Oriented 2D@3D Perovskites, Adv. Funct. Mater., 2018, 1801654. 9. T. Ye, S. Ma, X. Jiang, L. Wei, C. Vijila, S. Ramakrishna, Performance Enhancement of Tri-cation and Dual-anion Mixed Perovskite Solar Cells by Au@SiO2 Nanoparticles. Adv. Funct. Mater., 2017, 27, 1606545. 8. M. Petrović, T. Ye, V. Chellappan, S. Ramakrishna, Influence of charge transport and defects on the performance of planar and mesostructured perovskite solar cells. Adv. Energy Mater., 2017, 7, 1602610. 7. T. Ye, M. Petrović, S. Peng, J. L. K. Yoong, C. Vijila, S. Ramakrishna, Enhanced Charge Carriers Transport and Device Performance Through Dual-cesium Doping in Mixed-cation Perovskite Solar Cells with Near Unity Free Carrier Ratio. ACS Appl. Mater. Interfaces, 2017, 9, 2358–2368. 6. T. Ye, S. Ma, X. Jiang, M. Petrović, C. Vijila, S. Ramakrishna, L. Wei, Electrosprayed TiO2 Nanoporous Hemi-spheres for Enhanced Electron Transport and Device Performance of Formamidinium Based Perovskite Solar Cell. Nanoscale, 2017, 9, 412–420. 5. T. Ye, S.-L. Lim, X. Li, M. Petrović, X. Wang, C. Jiang, W.-P. Goh, C. Vijila, S. Ramakrishna, Pinhole-free mixed perovskite film for bending durable mixed perovskite solar cells. Sol. Energy Mater. Sol. Cells, 2018, 175, 111-117. 4. T. Ye, X. Wang, X. Li, A. Q. Yan, S. Ramakrishna, J. Xu, Ultra-High Seebeck Coefficient and Low Thermal Conductivity of Centimeter-sized Perovskite Single Crystal Acquired by a Modified Fast Growth Method. J. Mater. Chem. C, 2017, 5, 1255-1260. 3. T. Ye, J. Xing, M. Petrović, S. Chen, C. Vijila, G. S. Subramanian, T. C. Sum, B. Liu, Q. Xiong, S. Ramakrishna, Temperature Effect of the Compact TiO2 Layer in Planar Perovskite Solar Cells: an Interfacial Electrical, Optical and Carrier Mobility Study. Sol. Energy Mater. Sol. Cells, 2017, 163, 242-249. 2. T. Ye, X. Jiang, D. Wan, X. Wang, J. Xing, T. Venkatesan, Q. Xiong, S. Ramakrishna, Ultrafast Photogenerated Hole Extraction/Transport Behavior in a CH3NH3PbI3/Carbon Nanocomposite and Its Application in a Metal‐Electrode‐Free Solar Cell. ChemPhysChem, 2016, 17, 1-9. 1. T. Ye, J. Lee, S. Peng, S. Ramakrishna, In Response: Applications of carbon-based nanomaterials for water treatment—A business perspective. Environ. Toxicol. Chem., 2015, 34, 957-958.

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