Biography
- Organization:School of Optoelectronic Science and Engineering
- Tel:
- Gender:female
- Email:wqiao@suda.edu.cn
- Post:
- Office Location:
- Graduate School:
- Address:
- Degree:Ph. D.
- PostCode:
- Academic Credentials:
- Fax:
Education
Ph.D 09/2009-10/2013 |
University of California, San Diego Electrical and Computer Engineering Department |
Visiting scholar 09/2007-05/2009 |
University of California, San Diego Electrical and Computer EngineeringDepartment |
Master 09/2005-07/2009 |
Zhejiang University, China Information ScienceDepartment |
Bachelor 09/2001-07/2005 |
Tianjin University, China Precision Instrument & Optoelectronics EngineeringDepartment |
Professional Experiences
Professor 2020- |
Soochow University School of Optoelectronic Science and Engineering |
Associate Professor 2014-2020 |
Soochow University School of Optoelectronic Science and Engineering |
Overview
Professional Service
Research
Teaching
Projects
Publications
[1] Haoming Liu, Fengbin Zhou, Zhongwen Xia, Jianyu Hua, Cong Zhang, Linsen Chen, andWen Qiao†, “Bidirectional Augmented Reality 3D Signage Enabled by a Metagrating Waveguide”, ACS Photonics 2023 10 (12), 4259-4266
[2] Jianyu Hua, Fengbin Zhou, Zhongwen Xia,Wen Qiao†, Linsen Chen†. Large-scale metagrating complex-based light field 3D display with space-variant resolution for non-uniform distribution of information and energy. Nanophotonics. (2023)
[3] Chao Chen, Xiuguo Chen†, Sheng Sheng, Zhongwen Xia, Jiacheng Shi,Wen Qiao†, and Shiyuan Liu,“Monitoring sidewall tilting of pixelated nanogratings in 3D display”,Optics Express, 2023 Jan 30;31(3):4122-4128.
[4] Jianyu Hua, Yang Li, Peiran Ge, Donghui Yi, Linsen Chen,Wen Qiao†, “Time-multiplexed vector light field display with intertwined views via metagrating matrix”, Optics and Lasers in Engineering, Volume 164, 2023
[5] 周婷,乔文†,华鉴瑜,陈林森.增强现实抬头显示现状与展望[J].激光与光电子学进展, 2023, 60(8): 0811008.
[6] 刘锴,华鉴瑜,陈林森,乔文†.虚实融合裸眼3D显示现状与展望[J].激光与光电子学进展, 2022, 59(20):2011004.
[7] Fengbin Zhou,Wen Qiao†, Linsen Chen†, “Fabrication technology for light field reconstruction in glasses-free 3D display”, Journal of Information Display, 2022
[8] Fei Lu, Jianyu Hua, Fengbin Zhou, Zhongwen Xia, Ruibin Li, Linsen Chen, andWen Qiao†, Pixelated volume holographic optical element for augmented reality 3D display,Optics Express, 15929-15938 (2022)
[9] Chao Chen, Xiuguo Chen†, Zhongwen Xia, Jiacheng Shi, Sheng Sheng, WenQiao†, and Shiyuan Liu, Characterization of pixelated nanogratings in 3D holographic display by imaging Mueller matrix ellipsometry,Optics Letters, 47, 3580-3583 (2022)
[10] Tianjiao Ma, Liangwei Zhou, Jianyu Hua, Jin Li, Xiaodong Ma,Wen Qiao†, Jie Yin, and Xuesong Jiang†, “Dynamic Surface Wrinkles for In Situ Light-Driven Dynamic Gratings”, ACSApplied Materials & Interfaces2022 14 (14), 16949-16957
[11] Jianyu Hua,Wen Qiao†, and Linsen Chen†, Recent Advances in Planar Optics-Based Glasses-Free 3D Displays.Frontiers in Nanotechnology. 2022, 4:829011.
[12] 夏仲文,华鉴瑜,陈林森,乔文.基于微纳光子器件的光场裸眼3D显示技术[J].液晶与显示, 2022, 37(5):562-572.
[13] Fengbin Zhou, Feng Zhou, Yang Chen, Jianyu Hua,Wen Qiao†, and Linsen Chen†, “Vector light field display based on an intertwined flat lens with large depth of focus”.Optica, 2022, 9(3): 288-294(IF=11.1)
[14] Jianyu Hua, Erkai Hua, Fengbin Zhou, Jiacheng Shi, Chinhua Wang, Huigao Duan, Yueqiang Hu,Wen Qiao†, and Linsen Chen†, “Foveated glasses-free 3D display with ultrawide field of view via a large-scale 2D-metagrating complex”.Light Sci Appl10, 213 (2021). (IF=13.7)
[15] Shi, Jiacheng, Hua, Jianyu, Zhou, Fengbin, Yang, Min,Qiao, Wen†, Augmented Reality Vector Light Field Display with Large Viewing Distance Based on Pixelated Multilevel Blazed Gratings,Photonics, 2021. 8. 16, 8(8), 337 (IF 2.408)
[16] Xiumei Wu,Wen Qiao†, Ming Zhu, Jinru Ren, Donglin Pu, and Linsen Chen†, Roll-to-plate additive manufacturing,Optics Express29, 21833-21843 (2021) (IF 3.4)Editor’s Pick
[17] 陈林森†,乔文†,叶燕,刘艳花,浦东林,面向柔性光电子器件的微纳光制造关键技术与应用,光学学报,2021, 41(8): 0823018
[18] Jiacheng Shi,Wen Qiao†, Jianyu Hua, Ruibin Li, Linsen Chen†. Spatial multiplexing holographic combiner for glasses-free augmented reality. Nanophotonics9(9): 3003-3010. (2020)(IF=7.49)
[19] Wenqiang Wan,Wen Qiao†, Donglin Pu, Linsen Chen†. “Super multi-view display based on pixelated nanogratings under an illumination of a point light source.” Optics and Lasers in Engineering Volume 134, 106258, (2020).(IF 3.9)
[20] Feng Zhou, Jianyu Hua, Jiacheng Shi,Wen Qiao†, Linsen Chen. Pixelated Blazed Gratings for High Brightness Multiview Holographic 3D Display. IEEE Photonics Technology Letters 32(5): 283-286. (2020).(IF 2.5)
[21] Jianyu Hua, Donghui Yi,Wen Qiao†, Linsen Chen. “Multiview holographic 3D display based on blazed Fresnel DOE”. Optics Communications, Volume 472, 125829, (2020).(IF 2.1)
[22] 乔文,周冯斌,陈林森†,距离移动电子设备有多远?裸眼3D显示现状与展望,红外与激光工程,2020, 49(3): 0303002
[23] Yunli Zhang, Donghui Yi,Wen Qiao†, Linsen Chen, “Directional backlight module based on pixelated nano-gratings,” Optics Communications, Volume 459, 125034, (2020). (IF 2.1)
[24] Wen Qiang Wan,Wen Qiao†, Dong Lin Pu, Rui Bin Li, Chin Hua Wang, Yue Qiang Hu, Hui Gao Duan, Lin Jie Guo, and Lin-Sen Chen†, “Holographic Sampling Display Based on Metagratings,” iScience, vol. 23, no. 1, pp. 100773-100782, (2020). (IF 4.5)
[25] Zhen Zhou,Wen Qiao, Qinhua Wang, Linsen Chen, Wenbin Huang†,Microfluidic channels incorporating organic distributed Bragg reflector lasers for in situ sensing applications,Journal of Materials Chemistry C, 2018. 10. (IF 7.1)
[26] Wenqiang Wan,Wen Qiao†,Wenbin Huang,Ming Zhu,Yan Ye,Xiangyu Chen,Linsen Chen†,Multiview holographic 3D dynamic display by combining a nano-grating patterned phase plate and LCD,Optics Express2017.1.13 25 (2): 1114-1122(IF 3.4)
[27] Zengqian Ding,Chinhua Wang,Zhixiong Hu,Zhenggang Cao,Zhen Zhou,Xiangyu Chen,Hongyu Chen,Wen Qiao†, Surface profiling of an aspherical liquid lens with a varied thickness membrane,Optics Express2017.2.6 25 (4): 3122-3132(IF 3.4)
[28] Wenbin Huang,Xingtao Yu,Yanhua Liu,Wen Qiao†,Linsen Chen, A review of the scalable nano-manufacturing technology for flexible devices,Frontiers of Mechanical Engineering2017.1.7 1(11)(IF 2.448)
[29] Wen Qiao,Wenbin Huang,Yanhua Liu,Xiangmin Li,Lin-Sen Chen,Jian-Xin Tang†,Toward Scalable Flexible Nanomanufacturing for Photonic structures and Devices,Advanced Materials, 2016.11.7 28(47):10353-10380 (IF= 27.4)Inside Front Cover
[30] Wen Qiao, Chinhua Wang, Zengqian Ding, Junlan Song, XiaoXiao Wei†, Yu-Hwa Lo. “A two-stage electrophoretic microfluidic device for nucleic acid collection and enrichment”,Microfluidics and Nanofluidics20: 77 (2016).(IF 2.48)
[31] Wenbin Huang, Donglin Pu, Xiaofei Yang, Guojun Wei, Zongbao Fang, Xiaohong Zhou,Wen Qiao†, and Linsen Chen†. “A high-order external distributed feedback polymer laser with low working threshold”,Journal of Physics D: Applied Physics, 49(17):175106 (2016) (IF 2.77)
[32] Wenqiang Wan,Wen Qiao†, Wenbin Huang, Ming Zhu, Zongbao Fang, Donglin Pu, Yan Ye, Yanhua Liu, and Linsen Chen†. “Efficient fabrication method of nano-grating for 3D holographic display with full parallax views”,Optics express, 6203-6212 (2016) (IF 3.488)
[33] Wen Qiao, Zhang, T., Yen, T., Ku, T. H., Song, J., Lian, I., & Yu-Hwa Lo, “Oil-Encapsulated Nanodroplet Array for Bio-molecular Detection”.Annals of biomedical engineering, 1-10 (2014).(IF 3.23)
[34] Wen Qiao, Gyoujin Cho, Yu-Hwa Lo,“Wirelessly powered microfluidic electrophoresis devices using printable RF circuits”,Lab Chip, 1074-80,11(2011); (IF 5.67)
[35] WenQiao,Daniel Johnson, Frank S. Tsai, Sung Hwan Cho, and Yu-Hwa Lo, Bio-inspired accommodating fluidicintraocularlens,Optics Letters,34, 3214-3216 (2009)(IF 3.4)
[36] Wen Qiao, Frank S. Tsai, Sung Hwan Cho, Huimin Yan, Yu-Hwa Lo, Fluidic intraocular lens with a large accommodation range”,IEEEPhotonics Technology Letter21, 304-406 (2009) (IF 2.2)
Books&Patents
1.T.-F. Wu,W. Qiao, Y.-J. Chiu and Y.-H. Lo,“Optofluidic Lab-on-a-chip Devices for Photomedicine Applications”inApplications of Nanoscience in Photomedicine; Woodhead Publishing Limited (2014)
2.S.O. Meade,J. Godin, C.-H. Chen, S. H. Cho, F. Tsai,W. Qiao, Y.-H. Lo,“Microfluidic flow cytometry: Advancements toward compact, integrated systems,”inAdvanced optical cytometry: methods and disease diagnoses; Ed. V. Tuchin, Wiley (2011).
3.C.-H. Chen,J. Godin, S. H. Cho, F. Tsai,W. Qiao, Y.-H. Lo,“Flow cytometry and fluorescence-activated cell sorting,”inHandbook of Optofluidics; Ed. A. Hawkins and H. Schmidt, CRC Press (2010).
4.F. Tsai,J. Godin, Y. H. Lo, S. H. Cho,W. Qiao,“Bio-inspired fluidic lenses for imaging and integrated optics,”inOptofluidics: Fundamentals, Devices, and Applications; Ed. Y. Fainman, L. Lee, D. Psaltis, C. Yang, McGraw Hill (2010).
Patents Patent: