曾志平
副教授
博士,副教授,研究生导师

2021年12月至今 福州大学 副教授
2016.9-2021.12 福州大学 讲师
2012.9-2016.7 北京大学 博士
2009.9-2012.6 福建师范大学 硕士
2005.9-2009.6 福建师范大学 学士

研究简介:主要致力于光学超分辨显微成像技术及其在生命科学中的应用研究,发展了CERN、JT-SRRF、ltSOFI、synSRM等一系列新型超分辨荧光显微成像方法,实现对多种生物细胞器的精细结构进行超高分辨率显微成像,为生命科学研究提供可靠的技术支持和优秀的解决方案,已取得的研究成果对于荧光涨落超分辨技术用于实现更高保真度和图像分辨率的亚细胞器成像具有重要的研究意义。曾志平作为项目负责人主持国家自然科学基金青年项目和国家自然科学基金面上项目、福建省自然科学基金青年创新项目和福建省自然科学基金面上项目,入选“福建省级高层次人才B类”人才计划,以第一作者/通讯作者在Photonics Research, Optics and Laser Technology, Biomedical Optics Express,《中国激光》等国内外高水平SCI/EI学术期刊与核心期刊上发表学术论文20多篇,作为第一发明人已获得授权国家发明专利2件,在Optica Biophotonics Congress、Light Conference和光学青年科学家论坛等多个国内外学术会议上作口头报告和邀请学术报告,担任Light: Science & Applications等多个国内外高质量学术期刊的审稿人,在荧光超分辨显微成像领域已取得多项科学研究成果。

Zhiping Zeng received his PhD at Peking University in 2016. Currently, he is an associate professor at Fuzhou University. Zhiping Zeng has developed a series of optical super-resolution approaches, including synSRM, CERN, JT-SRRF, ltSOFI, 3D-MUSIC, JT-SOFI, etc. His current research interests include fluorescence super-resolution nanoscopy, novel optical microscopy techniques and the related applications in life sciences.

E-mail: zhipingzeng@163.com
 
 
科研项目(Research project)  
162575069基于缓变透射率二向色性的并行化多色荧光超分辨显微成像61.2万元国家自然科学基金面上项目2026.01-2029.121主持
22022J01546新型三模块联合设计无透镜光学显微成像研究及应用7万元福建省自然科学基金面上项目2022.08-2025.081主持
361905041基于荧光涨落的亚细胞同步多色超分辨成像27.6万元国家自然科学基金青年项目2020.01-2022.121主持
42018J05103基于荧光涨落的差值图像倍增超分辨成像3万元福建省自然科学基金青年创新项目2018.04-2021.031主持
5XRC-1663荧光涨落超分辨显微成像用于高密度分子运动追踪的研究及应用5万元校人才基金项目2016.10-2018.101主持
 
科技论著(Scientific treatise)  
1Fluctuation-Based Super-Resolution Microscopy Classification via Gradient Boosting Decision TreesMicroscopy Research and Technique,2026SCI期刊1
2High-resolution lensless microscopy imaging based on fluorescence intermittencyJournal of Biophotonics,2025SCI期刊1
3基于机器视觉的平凸透镜曲率半径检测方法实验室研究与探索,2025二类核心通讯
4Fluorescence super-resolution microscopy via fluctuation-based multi-route synergyBiomedical Optics Express,2024SCI期刊1
5基于多层感知机的荧光波动超分辨显微成像中国激光,2024EI期刊1
6基于双折射晶体透镜的自干涉全息成像系统实验技术与管理,2024二类核心通讯
7Optical super-resolution imaging under different fluorescence temporal fluctuationsPhotonIcs & Electromagnetics Research Symposium,2024EI会议1
8Enhanced upconversion luminescence of NaYF4:Er nanocrystals based on the synergy between whispering gallery mode excitation and forster resonant energy transferOptical Materials,2024SCI期刊通讯
9Chromatic aberration measurement of liquid crystal Pancharatnam Berry phase lens by a RGB full-Stokes imaging polarimeterOptics and Laser Technology,2023SCI期刊通讯
10多算法荧光涨落超分辨显微集成平台实验室研究与探索,2023二类核心通讯
11An Integrated Platform for Multi-Algorithm Fluorescence Fluctuation Super-Resolution NanoscopyOptica Biophotonics Congress: Optics in the Life Sciences,2023EI会议通讯
12Defect inspection of optical components based on dark-field polarization imaging and convolutional neural network recognition algorithmsOptical Engineering,2023SCI期刊通讯
13Cross-cumulant enhanced radiality nanoscopy for multicolor superresolution subcellular imagingPhotonics Research,2020卓越期刊1
14Lifetime super-resolution optical fluctuation imagingJournal of Microscopy,2019SCI1
15Joint tagging assisted fluctuation nanoscopy enables fast high-density super-resolution imaging (封面论文)Journal of Biophotonics,2018SCI1
16Full-Stokes polarization imaging method based on the self-organized grating array in fused silicaScientific Reports,2018SCI通讯
17基于荧光随机涨落的超分辨显微成像中国激光,2018EI独立撰编写
18Computational methods in super-resolution microscopyFrontiers of Information Technology & Electronic Engineering,2017SCI1
19Advances in three-dimensional super-resolution nanoscopyMicroscopy Research and Technique,2016SCI1
20Superior performance with sCMOS over EMCCD in Super-resolution Optical Fluctuation Imaging (SOFI)Journal of Biomedical Optics,2016SCI2
21Fast super-resolution imaging with ultra-high labeling density achieved by joint tagging super-resolution optical fluctuation imagingScientific Reports,2015SCI1
22Three-dimensional multimodal sub-diffraction imaging with spinning-disk confocal microscopy using blinking/fluctuating probesNano Research,2015SCI2
 
授权专利(Authorized patent)  
1基于缓变透过率二向色镜的多色荧光涨落成像系统及方法发明专利2026-05-12福州大学1
2一种超高密度超分辨光学闪烁显微成像系统及方法发明专利2017-01-18北京大学1