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季 力
教授 博士生导师
电        话:
邮        箱:
lji@fudan.edu.cn
地        址:
复旦大学张江校区微分析楼A313室
研  究  所:
微纳电子器件研究所

长期招收具有物理/电子/材料/电化学背景的博士/硕士/博后。


研究方向:

新型微纳电子器件与量子器件

多物性与多功能器件异质集成(MBE-ALD/STM-TERS/ARPES)

半导体光电化学催化与氢能源

第三代半导体材料制备及器件


学术经历:

2020年03月-至今Science子刊《Research》杂志副主编
2019年09月-至今复旦大学/微电子学院/教授
2016年06月-2019年08月[美]德州大学奥斯汀分校/微电子研究中心/高级研究员
2011年08月-2016年05月[美]德州大学奥斯汀分校/电子与计算机工程系/博士
2007年09月–2011年07月厦门大学/物理系微电子学/学士



代表性论文:(全部文章列表详见Google Scholar)

2019-2024(复旦工作)

[11]S. Wei, W. Xia, S. Bi, S. Hu, X. Wu, H. Hsu, X. Zou*, K. Huang*, D. W. Zhang, Q. Sun, A. J. Bard, E. T. Yu*, L. Ji*, Metal-insulator-semiconductor photoelectrodes for enhanced photoelectrochemical water splitting, Chemical Society Reviews, 53 (2024).

[10]Q. Han, J. Wang*, S. Tian, S. Hu*, X. Wu, R. Bai, H. Zhao, D. W. Zhang, Q. Sun*, and L. Ji*, Inorganic Perovskite-Based Active Multifunctional Integrated Photonic Devices, Nature Communications, vol.15 (2024), p1536.

[9] S. Lee, L. Ji*, A.C. De Palma, and E.T. Yu*, Scalable, highly stable Si-based metal-insulator-semiconductor photoanodes for water oxidation fabricated using thin-film reactions and electrodeposition, Nature Communications, vol.12 (2021), p1.

[8] X. Zou, L. Ji*, J. Ge, D.R. Sadoway, E.T. Yu, and A.J. Bard, Electrodeposition of crystalline silicon films from silicon dioxide for low-cost photovoltaic applications, Nature Communications, vol.10 (2019), p5772.

[7] Y. Zhang, S. Hu, P. Chen, J. Zhu, B. Chen, R. Bai, H. Zhu, L. Chen, D. W. Zhang, J. C. Lee, Q. Sun, J. G. Ekerdt*, and L. Ji*, Post-annealing optimization of the heteroepitaxial La-doped SrSnO3 integrated on silicon via ALD, Nanoscale, vol.15 (2023), p9432.

[6] H. Yang, Y. Wang, X. Zou, R. Bai, Z. Wu, S. Han, T. Chen, S. Hu, H. Zhu, L. Chen, D.W. Zhang, J.C. Lee, X. Lu, P. Zhou, Q. Sun, E.T. Yu, D. Akinwande*, and L. Ji*, Wafer-Scale Synthesis of WS2 Films with In Situ Controllable p-Type Doping by Atomic Layer Deposition, Research, vol.2021 (2021), p9862483.

[5] T. Feng, Z. Pang, S. Hu, X. Zhang, F. Wang, X. Xia, G. Li, H. Hsu, Q. Xu, X. Zou*, X. Lu, and L. Ji*, Recent Advances in Electrochemical-Based Silicon Production Technologies with Reduced Carbon Emission, Research, vol.6 (2023), p0142.

[4] X. Guo, Q. Han, J. Wang, S. Tian, R. Bai, H. Zhao, X. Zou, X. Lu, Q. Sun*, D. W. Zhang, S. Hu,* and L. Ji*, Optoelectronic Devices of Large-Scale Transferred All-Inorganic Lead Halide Perovskite Thin Films, ACS Applied Materials & Interfaces, vol.15 (2023), p24606.

[3] Y. Peng, C.H. Mak, J.-J. Kai, M. Du, L. Ji*, M. Yuan, X. Zou, H.-H. Shen, S.P. Santoso, J.C. Colmenares, and H.-Y. Hsu*, Recent progress on post-synthetic treatments of photoelectrodes for photoelectrochemical water splitting, Journal of Materials Chemistry A, vol.9 (2021), p26628.

[2] H. Yang, Y. Wang, X. Zou, R.X. Bai, S. Han, Z. Wu, Q. Han, Y. Zhang, H. Zhu, L. Chen, X. Lu, Q. Sun, J.C. Lee, E.T. Yu, D. Akinwande, and L. Ji*, Growth Mechanisms and Morphology Engineering of Atomic Layer-Deposited WS2, ACS Applied Materials & Interfaces, vol.13 (2021), p43115.

[1] Y. Tang, C.H. Mak, R. Liu, Z. Wang, L. Ji*, H. Song, C. Tan, F. Barrière, and H.Y. Hsu*, In Situ Formation of BismuthBased Perovskite Heterostructures for HighPerformance CocatalystFree Photocatalytic Hydrogen Evolution, Advanced Functional Materials, vol.30 (2020).

2011-2018 UT-Austin工作)

[14]L. Ji*, H.Y. Hsu, X. Li, K. Huang, Y. Zhang, J.C. Lee, A.J. Bard, and E.T. Yu, Localized dielectric breakdown and antireflection coating in metal-oxide-semiconductor photoelectrodes, Nature Materials, vol.16 (2017), p127. (*通讯作者,封面文章)

[13]L. Ji*, M.D. McDaniel, S. Wang, A.B. Posadas, X. Li, H. Huang, J.C. Lee, A.A. Demkov, A.J. Bard, J.G. Ekerdt, and E.T. Yu, A silicon-based photocathode for water reduction with an epitaxial SrTiO3 protection layer and a nanostructured catalyst, Nature Nanotechnology, vol.10 (2015), p84. (*通讯作者,专题推荐)

[12]L. Ji*, M.D. McDaniel, L. Tao, X. Li, A.B. Posadas, Y.-F. Chang, A.A. Demkov, J.G. Ekerdt, D. Akinwande, and R.S. Ruoff, “Atomic scale engineering of metal-oxide-semiconductor photoelectrodes for energy harvesting application integrated with Graphene and Epitaxy SrTiO3,” in 2014 IEEE International Electron Devices Meeting(IEDM), 2014, pp. 8.6. 1. (*通讯作者)

[11]L. Ji*, H.Y. Hsu, J.C. Lee, A.J. Bard, and E.T. Yu, High-Performance Photodetectors Based on Solution-Processed Epitaxial Grown Hybrid Halide Perovskites, Nano Letters, vol.18 (2018), p994. (*通讯作者)

[10]L. Ji*, Y.-F. Chang, B. Fowler, Y.-C. Chen, T.-M. Tsai, K.-C. Chang, M.-C. Chen, T.-C. Chang, S.M. Sze, and E.T.J.N.l. Yu, Integrated one diode–one resistor architecture in nanopillar SiOx resistive switching memory by nanosphere lithography, Nano Letters, vol.14 (2013), p813. (*第一作者)

[9] X. Zou, L. Ji*, X. Yang, T. Lim, E.T. Yu, and A.J. Bard, Electrochemical Formation of a pn Junction on Thin Film Silicon Deposited in Molten Salt, Journal of the American Chemical Society, vol.139 (2017), p16060. (*共同一作)

[8] H.Y. Hsu, L. Ji*, H.S. Ahn, J. Zhao, E.T. Yu, and A.J. Bard, A Liquid Junction Photoelectrochemical Solar Cell Based on p-Type MeNH3PbI3 Perovskite with 1.05 V Open-Circuit Photovoltage, Journal of the American Chemical Society, vol.137 (2015), p14758. (*共同一作)

[7] X. Yang, L. Ji*, X. Zou, T. Lim, J. Zhao, E.T. Yu, and A.J. Bard, Toward Cost-Effective Manufacturing of Silicon Solar Cells: Electrodeposition of High-Quality Si Films in a CaCl2-based Molten Salt, Angewandte Chemie International Edition, vol.56 (2017), p15078. (*共同一作)

[6] Y. Li, L. Ji*, R. Liu, C. Zhang, C.H. Mak, X. Zou, H.-H. Shen, S.-Y. Leu, and H.-Y. Hsu, A review on morphology engineering for highly efficient and stable hybrid perovskite solar cells, Journal of Materials Chemistry A, vol.6 (2018), p12842. (*通讯作者)

[5] X. Zou, L. Ji*, H.-Y. Hsu, K. Zheng, Z. Pang, and X. Lu, Designed synthesis of SiC nanowire-derived carbon with dual-scale nanostructures for supercapacitor applications, Journal of Materials Chemistry A, vol.6 (2018), p12724. (*通讯作者)

[4] H.-Y. Hsu, L. Ji*, C. Zhang, C.H. Mak, R. Liu, T. Wang, X. Zou, S.-Y. Leu, and E.T. Yu, Ultra-stable 2D layered methylammonium cadmium trihalide perovskite photoelectrodes, Journal of Materials Chemistry C, vol.6 (2018), p11552. (*共同一作)

[3] C.X. Zhang, R.G. Liu, C.H. Mak, X.L. Zou, H.H. Shen, S.Y. Leu, L. Ji*, and H.Y. Hsu, Photophysics of organic photovoltaic devices: a review, Journal of Photonics for Energy, vol.8 (2018), p021001. (*通讯作者)

[2] H.-Y. Hsu, L. Ji*, M. Du, J. Zhao, E.T. Yu, and A.J. Bard, Optimization of PbI2/MAPbI3 Perovskite Composites by Scanning Electrochemical Microscopy, The Journal of Physical Chemistry C, vol.120 (2016), p19890. (*共同一作)

[1] P. Li, L. Ji*, N. Gao, H. Wang, S. Ge, K. Huang, J. Kang, and E.T. Yu, Peak splitting and locking behavior arising from Fano interference between localized surface plasmons and cavity modes, Physical Review B, vol.99 (2019), p125420. (*共同一作)