

李进,教授,博导,剑桥大学博士后,曾在中国科学院、清华大学、剑桥大学、康普顿斯、斯图加特大学、东京大学等学习和工作。入选国家海外优青、洪堡资深学者、欧盟玛丽居里学者、JSPS Fellow、钱江特聘专家等。主持多项国家级与省部级项目,代表成果发表在Light: Science & Applications、Nature Communications、PhotoniX、Advanced Science、ACS Nano、Research、IEEE Transactions等上,申请和授权发明专利50余项,出版Springer Nature英文专著,荣获多项学会及省级奖励与荣誉。
主要从事先进光学(几何/物理/量子/微纳)仪器与系统及器件研究:
(1)量子精密测量与原子磁强计
(2)微纳光学及应用
(3)超表面与超表面全息
(4)全息显示与三维显示
(5)光学成像和图像/信号处理
(6)先进光电器件与传感器
(7)微纳制备及器件与系统
代表性科研项目:
(1)国家自然科学基金委优秀青年科学基金项目(海外)
(2)欧盟地平线2020计划
(3)国家重点研发子课题
(4)国家自然科学基础中心子课题
(5)北京市自然科学基金非共识项目
(6)浙江省尖兵领雁计划
代表性学术奖励:
(1)中国光学工程学会第二届传感技术与应用优秀成果奖
(2)中国光学工程学会光学工程前沿交叉优秀成果奖
(3)中国仪器仪表学会青年科技奖
(4)中国仪器仪表学会科技进步奖
(5)日本JSPS Bridge Fellow
(6)日本JSPS 外籍学者
(7)欧盟玛丽居里学者(MSCA-IF)
(8)德国洪堡资深学者
(9)吉林省科技进步奖
(10)剑桥大学蓝天研究奖
代表性论文:
(24)Light: Science & Applications (2022)–Holobricks: modular coarse integral holographic displays.(IF=23.4)
(23)Nature Communications(2022)–Turing patterns with high-resolution formed without chemical reaction in thin-film solution of organic semiconductors. (IF=15.7)
(22)PhotoniX(2025)—Phase-Gradient Metasurface Enables Atomic Spin Chirality Detection for Elliptically Polarized Laser-Pumped Atomic Magnetometer.(IF=19.1)
(21)Advanced Science (2025)—Polarization-Improved Bidirectional-Pump Atomic Magnetometer Based on Spin-Decoupled Metasurface.(IF=14.0)
(20)ACS Nano (2025)–Colloidal Nanoparticle Metasurfaces: Principles, Fabrication, and Applications.(IF=16.0)
(19)Research (2025)–Generative Artificial Intelligence in the Metaverse Era: A Review on Models and Applications.(IF=10.7)
(18)Laser & Photonics Reviews(2025)-Ferrofluid‐Assisted Dynamic Metasurface 3D Holography Endowed With Rapid, Linear, and High‐Contrast Color Modulation.(IF=10.0)
(17)Laser & Photonics Reviews(2024)— High Space‐Bandwidth‐Product (SBP) Hologram Carriers Toward Photorealistic 3D Holography.(IF=10.0)
(16)Microsystems & Nanoengineering(2024)—Dynamic 3D metasurface holography via cascaded polymer dispersed liquid crystal.(IF=9.9)
(15)Applied Physics Letters(2025)—Mixed wave mode: Direct evidence of phase transition during uphill-diffusion-based Turing-like pattern formation. (IF=3.6)
(14)Nanophotonics(2025) —Metasurface-integrated Atomic Magnetometer Using Single-frequency Dual Beams. (IF=6.6)
(13)ACS Applied Materials & Interfaces(2021): Variety of ordered patterns in Donor-Acceptor polymer semiconductor films crystallized from solution.(IF=8.2)
(12)IEEE Transactions on Geoscience and Remote Sensing (2025)—MSSFC-Net: Enhancing Building Interpretation with Multi-Scale Spatial-Spectral Feature Collaboration.(IF=8.6)
(11)IEEE Transactions on Instrumentation and Measurement (2025)—Laser-frequency stabilization using Doppler-free spectrum of 87 Rb D1 line produced by bichromatic circularly-polarized light. (IF=5.9)
(10)IEEE Transactions on Instrumentation and Measurement (2024)— Anti-Noise Light Field Depth Estimation Using Inline Occlusion Handling. (IF=5.9)
(9)IEEE Transactions on Circuits and Systems for Video Technology (2019)—Camera geometric calibration using dynamic single-pixel illumination with deep learning networks. (IF=11.1)
(8)ACS Photonics (2024)—High-Quality Atom-Manipulation by Pancharatnam–Berry Metasurface for High-Sensitivity Miniaturized Optically Pumped Magnetometers. (IF=6.7)
(7)APL Photonics (2024)—High-efficiency, broadband, and low-crosstalk 3D holography by multi-layer holographic-lens integrated metasurface. (IF=5.3)
(6)Engineering Applications of Artificial Intelligence (2024)—Image semantic segmentation approach based on DeepLabV3 plus network with an attention mechanism. (IF=8.0)
(5)Expert Systems with Applications (2023)—Real-time vehicle detection algorithm based on a lightweight You-Only-Look-Once (YOLOv5n-L) approach. (IF=7.5)
(4)Applied Soft Computing Journal—An effective detection algorithm for small UAV based on lightweight You-Only-Look-Once (YOLOv4-L) Approach, (IF=6.6)
(3)Measurement (2025)—A compact optically pumped potassium atomic magnetometer with high sensitivity under geomagnetic field intensity. (IF=5.6)
(2)Optics Letters (2025)—High-fidelity metasurface holography illuminated by an ultra-uniform flat-top beam generated through active wavefront shaping. 50(2). (IF=3.1)
(1)Advanced Devices & Instrumentation—Solution-based UV photodiode with ZnO nanoparticle/PEDOT:PSS heterojunction and negative capacitance.