李理

学历/学位

博士

出生年月

1984.1

研究方向

激光干涉微纳制造技术与设备研发、基于原子力显微镜的纳米操纵技术

职 称

副研究员

职务

吉林省纳米操纵与制造国际联合研究中心主任

电子邮箱

lil@cust.edu.cn

联系方式

15004319388

学习经历

2003.9——2007.6 本科 吉林大学 无机非金属材料专业

2008.9——2013.6 硕博连读 北京师范大学 凝聚态物理专业

参与科研项目

（1）装发部，*****激光加工技术，195万元，2022-1至2025-12，主持

吉林省科技厅，国际合作项目，多重仿生减阻、防冰、自清洁复合功能碳纤维微纳结构制造技术，15万元，2022-07至2024-6，主持

（2）科技部，国家重点研发计划，微纳结构增材制造工艺与装备，长春理工大学子课题“仿生微纳结构器件与应用”，2018-1至2021-12，120万元，参加（第2名）

（3）装发部，装备预研共用技术和领域基金，***，***，2017-1至2020-12，220万元，参加（第2名）

（4）科技部，国家重点研发计划，研究功能表面的微纳制备技术，2017-01至2019-12，154万元，主持

（5）吉林省科技厅，吉林省自然科学基金优秀青年基金，超分辨金属纳米结构大面积快速制备研究，2018-01至2019-12，9万元，主持

（6）国家自然科学基金委员会，青年基金，基于超薄有机晶体制备高效率三基色电致发光器件及其机理研究，2017-01至2019-12，20万元，参加（第2名）

（7）国家自然科学基金委员会，青年基金，敏化的高阈值体系下亚衍射极限纳米光刻极限尺度研究，2016-01至2018-12，20万元，主持

发表论文

[1] Yu, M., L. Li, X. Wu, Y. Song, J. Liu, and Z. Wang, Fabrication and transfer printing of periodic Pt nanonetwork gratings, AIP Advances, 10, 3, 035214, (2020).

[2] Wang, L., L. T. Dong, L. Li, R. Ding, J. Y. Liu, W. X. Zhang, Y. Wang, Z. K. Weng, X. D. Guo, and Z. B. Wang, Templated assembly of micropatterned Au-Ni nanoparticles on laser interference-structured surfaces by thermal dewetting, Journal of Magnetism and Magnetic Materials, 495, 165876, (2020).

[3] Guo, X., S. Li, Z. Lei, R. Liu, L. Li, L. Wang, L. Dong, K. Peng, and Z. Wang, Controllable Patterning of Hybrid Silicon Nanowire and Nanohole Arrays by Laser Interference Lithography, physica status solidi (RRL) – Rapid Research Letters, early view, 2000024, (2020).

[4] Han, Y. L., Z. K. Weng, L. Cao, L. Li, K. H. Liang, Z. X. Lian, J. K. Xu, Y. Q. Wang, Y. Zhang, Z. X. Song, and Z. B. Wang, Fabrication of oil-water separation stainless steel mesh via direct laser interference lithography, candle soot deposition, and thermal treatment, Journal of Laser Applications, 31, 1, (2019).

[5] Wang, L., L. T. Dong, L. Li, Z. K. Weng, H. M. Xu, M. Yu, and Z. B. Wang, Fabrication of periodically micropatterned magnetite nanoparticles by laser-interference-controlled electrodeposition, Journal of Materials Science, 53, 5, 3239-3249, (2018).

[6] Liu, L. J., Z. B. Wang, W. X. Zhang, X. Y. Zhu, L. Li, and Z. K. Weng, Analysis of Colchicine-Induced Effects on Hepatoma and Hepatocyte Cells by Atomic Force Microscopy, Journal of Nanoscience and Nanotechnology, 18, 6, 4248-4254, (2018).

[7] Guo, X. D., L. Li, Y. W. Hu, L. Cao, L. T. Dong, L. Wang, R. Ding, Z. K. Weng, Z. X. Song, H. M. Xu, Z. Yang, X. P. Liu, Y. L. Tian, and Z. B. Wang, Superlens-enhanced laser interference lithography, Applied Physics Express, 11, 12, (2018).

[8] Zhang, Z., L. T. Dong, Y. F. Ding, L. Li, Z. K. Weng, and Z. B. Wang, Micro and nano dual-scale structures fabricated by amplitude modulation in multi-beam laser interference lithography, Optics Express, 25, 23, 29135-29142, (2017).

[9] Yu, M., L. Cao, L. Li, L. T. Dong, L. Wang, X. Chen, Z. X. Song, Z. K. Weng, Z. B. Wang, and Ieee, "Fabrication of Division-of-focal-plane Polarizer Arrays by Electron Beam Lithography," in 2017 Ieee International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (International Conference on Manipulation Manufacturing and Measurement on the Nanoscale, 2017, pp. 79-82.

[10] Weng, Z. K., X. Y. Chai, L. J. Liu, L. Li, H. M. Xu, Z. X. Song, Z. B. Wang, C. T. Wu, W. X. Mi, and K. H. Liang, Effects of temperature and current density on the porous structure of InP, Journal of Solid State Electrochemistry, 21, 2, 545-553, (2017).

[11] Ning, X. H., Q. L. Meng, Y. L. Han, D. Y. Zhou, L. Li, Z. K. Weng, R. Ding, and Z. B. Wang, Flower-shaped TiO2 clusters for highly efficient photocatalysis, Rsc Advances, 7, 55, 34907-34911, (2017).

[12] Liu, Q., W. J. Li, L. Cao, J. J. Wang, Y. M. Qu, X. Y. Wang, R. X. Qiu, X. Di, Z. B. Wang, and B. J. Liang, Response of MG63 Osteoblast Cells to Surface Modification of Ti-6Al-4V Implant Alloy by Laser Interference Lithography, Journal of Bionic Engineering, 14, 3, 448-458, (2017).

[13] Liu, L. J., Z. B. Wang, Z. K. Weng, L. Li, J. X. Cai, L. T. Dong, Z. X. Song, H. M. Xu, and Ieee, "Nanomanipulation of Single Nanowires on Structured Surfaces Fabricated by Laser Interference Lithography," in 2016 6th Ieee International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (International Conference on Manipulation Manufacturing and Measurement on the Nanoscale, 2016, pp. 145-148.

[14] Zhou, Z. Q., Z. X. Song, L. Li, J. J. Zhang, and Z. B. Wang, Fabrication of periodic variable-sized Pt nanoparticles via laser interference patterning, Applied Surface Science, 335, 65-70, (2015).

[15] Zhao, L., Z. Wang, J. Zhang, L. Cao, L. Li, Y. Yue, and D. Li, Antireflection silicon structures with hydrophobic property fabricated by three-beam laser interference, Applied Surface Science, 346, 574-579, (2015).

[16] Li, L., Z. B. Wang, W. J. Li, K. Q. Peng, Z. Zhang, M. Yu, Z. X. Song, Z. K. Weng, D. P. Wang, and L. Zhao, Fabrication of Pt nanowires with a diffraction-unlimited feature size by high-threshold lithography, Applied Physics Letters, 107, 13, (2015).

[17] Wang, X., K. Q. Peng, Y. Hu, F. Q. Zhang, B. Hu, L. Li, M. Wang, X. M. Meng, and S. T. Lee, Silicon/Hematite Core/Shell Nanowire Array Decorated with Gold Nanoparticles for Unbiased Solar Water Oxidation, Nano Letters, 14, 1, 18-23, (2014).

[18] Chai, X. Y., L. P. Xu, D. D. Deng, Z. A. Zhang, L. Li, Z. K. Weng, H. M. Xu, and Z. B. Wang, "Tunable Oscillatory Phenomenon during Anodic of n-InP (100) by the CPCR Model," in 2014 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale, P. Kallio, Ed. (International Conference on Manipulation Manufacturing and Measurement on the Nanoscale, 2014, pp. 347-350.

[19] Peng, K. Q., X. Wang, L. Li, Y. Hu, and S. T. Lee, Silicon nanowires for advanced energy conversion and storage, Nano Today, 8, 1, 75-97, (2013).

[20] Li, L., K. Q. Peng, B. Hu, X. Wang, Y. Hu, X. L. Wu, and S. T. Lee, Broadband optical absorption enhancement in silicon nanofunnel arrays for photovoltaic applications, Applied Physics Letters, 100, 22, (2012).

[21] Wang, X., K. Q. Peng, X. J. Pan, X. Chen, Y. Yang, L. Li, X. M. Meng, W. J. Zhang, and S. T. Lee, High-Performance Silicon Nanowire Array Photoelectrochemical Solar Cells through Surface Passivation and Modification, Angewandte Chemie-International Edition, 50, 42, 9861-9865, (2011).

[22] Peng, K. Q., X. Wang, L. Li, X. L. Wu, and S. T. Lee, High-Performance Silicon Nanohole Solar Cells, Journal of the American Chemical Society, 132, 20, 6872-+, (2010).

获奖成果