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张永爱

研究方向:  光场3D显示、Micro-LED显示、纳米发光显示、印刷显示材料与器件
联系电话:  13805018296
办公地址:  福州大学国家大学科技园
电子邮件:  
yongaizhang@fzu.edu.cn
职称/职务:  研究员,博士生导师,福建省高层次B类人才,物理电子学硕士学位点负责人,平板显示技术国家地方联合工程研究中心 主任
教育/工作经历:

2004.7-至今,福州大学,物理与信息工程学院

2016/07-2016/12,国立交通大学,访问学者

2008/09 – 2011/06,福州大学,物理与信息工程学院,博士
2001/09 – 2004/06,武汉理工大学,材料科学与工程学院,硕士
1997/09 – 2001/06,武汉化工学院,材料科学与工程学院,学士
承担课程:
本科课程:激光原理;光电子技术;
研究生课程:光电子学与光电子器件;光电信息技术;光电子技术及其应用

科研简介:
长期从事场致发射显示、3D显示、印刷显示材料与器件,Micro-LED显示、纳米发光显示等领域的研究。近年来作为负责人主持的项目有20余项。作为课题核心人员参与国家级和省部级重点重大项目10余项。已取得一系列成果,以第一作者/通讯作者发表学术论文60余篇,另外发表合作署名论文近30篇,授权发明专利60余件。
代表性论文:

[1] Wenjuan Su#, Haonan Wang#, Zhenyou Zou, Changjing Chai, Shuchen Weng, Jinyu Ye, Jie Sun, Qun Yan, Xiongtu Zhou,* Chaoxing Wu,*  Yongai Zhang*. Design and Photomodulation Performance of a UV-Driven Full GaNIntegrated μLED and BJT Phototransistor, ACS Photonics, 11 (2024) 649.

[2] Wandi Chen#, Haonan Wang#, Yibin Lin, Xinyan Gan, Heng Tang, Yongai Zhang*, Qun Yan, Tailiang Guo, Xiongtu Zhou*, and Chaoxing Wu*. Self-powered flexible fingerprint-recognition display based on a triboelectric nanogenerator. Nano Research, 17 (2024) 3021.

[3] Yanmin Guo, Shuqian Zhang, Chaoxing Wu,* , Zheng Gong, Zhipeng Zhang, Yongai Zhang*, Jae Hyeon Park, Xiongtu Zhou, Tailiang Guo, Tae Whan Kim**. Research advances on a powering approach aimed toward electric nodes around the body region, Nano Energy, 121 (2024) 109232.

[4] Wandi Chen, Wenwen Wang, Shiyao Li, Jiaxin Kang, Yongai Zhang*,  Qun Yan, Tailiang Guo, Xiongtu Zhou,* Chaoxing Wu*. Self-powered liquid crystal lens based on a triboelectric nanogenerator. Nano Energy, 107 (2023) 108143.

[5] Baoran Shi, Qiman Wang, Hao Su, Junlong Li, Biao Xie, Pengpeng Wang , Jiawen Qiu, Chaoxing Wu*, Yongai Zhang*, Xiongtu Zhou, Tae Whan Kim**. Progress in recent research on the design and use of triboelectric nanogenerators for harvesting wind energy. Nano Energy, 116 (2023) 108789.

[6] Wen-Wen Wang#, Yu-Yan Penga#, Xu-Yang Weng, Yan-Qiao Jin#, Xiong-Tu Zhoua, Qun Yana, Tai-Liang Guoa, Chao-Xing Wua,and Yong-Ai Zhang*. Flexible liquid crystal micro-lens arrays for curved integral imaging 2D/3D convertible display. Liquid Crystal, 50 (2023) 1666.

[7] Yiwei Shen#, Wenhao Li#, Kun Wang, Rong Chen, Chaoxing Wu,* Xiongtu Zhou, Yongai Zhang,* Yin Xiao,* Suling Zhao,* and Tailiang Guo. In-Well Ionization from Monolayer Quantum Dots for Non-CarrierInjection Electroluminescence. The Journal of Physical Chemistry Letters, 13 (2022) 10649.

[8] WenwenWang, Wandi Chen, Yuyan Peng, Yongai Zhang*, QunYan, TailiangGuo, Xiongtu Zhou* & Chaoxing Wu*. Low‑voltage driving high‑resistance liquid crystal micro‑lens with electrically tunable depth of feld for the light feld imaging system. Scientific Reports, 12 (2022) 17442

[9] Shiyao Li, Wenwen Wang, Yongai Zhang* , Qun Yan, Tailiang Guo, Xiongtu Zhou*, Chaoxing Wu. Electrically tunable large aperture liquid crystal lens with dual hole-patterned electrodes. Optics Communications, 512 (2022) 127911.

[10] Y.L. Weng#, S.Y. Chen#, Y.A. Zhang*, L. Sun, Y. Wu, Q. Yan, T.L. Guo, X.T. Zhou*, C.X. Wu. Fabrication and color conversion of patterned InP/ZnS quantum dots photoresist film via a laser-assisted route. Optics & Laser Technology, 140 (2021) 107026.

[11] Y.A. Zhang, X.Y. Weng, P.H. Liu, C.X. Wu, L. Sun, Q. Yan, T.L. Guo, X.T. Zhou. Electrically high-resistance liquid crystal micro-lens arrays with high performances for integral imaging 3D display. Optics Communications, 462 (2020) 125299.

[12] C.X. Wu#, Y.A. Zhang#, X.T. Zhou, D.L. Li, J.H. Park, T.L. Guo, F.S. Li*, T.W. Kim*. Binary Electronic Synapses for Integrating Digital and Neuromorphic Computation in a Single Physical Platform. ACS Applied materials & Interfaces, 12 (2020) 17130.

[13] W.W. Weng, G.X. Chen, Y.L. Weng, X.Y. Weng, X.T. Zhou*, C.X. Wu, T.L. Guo, Q. Yan, Z.X. Lin, Y.A. Zhang*. Large‑scale microlens arrays on flexible substrate with improvednumerical aperture for curved integral imaging 3D display. Scientific Reports, 10 (2020) 11741.

[14] Y.L. Weng, G.X. Chen, X.T. Zhou, Q. Yan, T.L. Guo, Y.A. Zhang. Design and fabrication of bi-functional TiO2/Al2O3 nanolaminates with selected light extraction and reliable moisture vapor barrier performance. Nanotechnology, 30 (2019) 085702.

[15] Y.Wu, S.Y. Chen, Y.L. Weng, Y.A. Zhang*, C.X. Wu, L. Sun, S.L. Zhang, Q. Yan, T.L. Guo, X.T. Zhou*.  Facile synthesis and color conversion of Cu‑doped ZnSe quantum dots in an aqueous solution. Journal of Materials Science, 30 (2019) 21406.

[16] S.L. Zhang, C.F. Lin, Y.L. Weng, L.C. He, T.L. Guo, Y.A. Zhang*, X.T. Zhou*. Facile and green synthesis of core–shell ZnSe/ZnS quantum dots in aqueous solution. Journal of Materials Science, 29 (2018) 16805.

[17] Y.A. Zhang, C.F. Lin, J.P. Lin, X.Y. Zeng, Q. Yan, X.T. Zhou*, T.L. Guo*. Dual-layer electrode-driven liquid crystal lens with electrically tunable focal length and focal plane. Optics Communications 412 (2018) 114.

[18] Y.A. Zhang, T. Jin, L.C. He, Z.H. Chu, T.L. Guo, X.T. Zhou, Z.X. Lin. Controllable liquid crystal gratings for an adaptive 2D/3D auto-stereoscopic display. Optics Communications, 384 (2017) 16-24.

[19] X.Y. Zeng, X.T. Zhou, T.L. Guo, L. Yang, E.G. Chen, Y.A. Zhang*. Crosstalk reduction in large-scale autostereoscopic 3D-LED display based on black-stripe occupation ratio. Optics Communications, 389 (2017) 159-164.

[20] X.T. Zhou, R. Peng, C.F. Ren, L. Sun, J. Hu, T.L. Guo, Y.A. Zhang*, Z.X. Lin. Fabrication and field emission properties of ZnO/Al2O3 nanocomposite tetrapods. Journal of Alloys and Compounds, 695 (2017) 1863-1869.

[21] L. Sun, X.T. Zhou, Z.X. Lin, T.L. Guo, Y.A. Zhang*, Y.Z. Zeng. Effects of ZnO Quantum Dots Decoration on the Field Emission Behavior of Graphene. ACS Applied Materials and Interfaces, 8 (2016) 31856-31862.

[22] X.T. Zhou, Y.Y. Peng, R. Peng, X.Y. Zeng, Y.A. Zhang* and T.L. Guo. Fabrication of Large-Scale Microlens Arrays Based on Screen Printing for Integral Imaging 3D Display. ACS Applied Materials and Interfaces, 8 (2016) 24248-24255.

[23] Y.A. Zhang, L.C. He, T. Jin, T.L. Guo, X.T. Zhou, Z.X. Lin. Surface-conducted field emission electron sources with ZnO emitters of different morphologies. Journal of Alloys and Compounds, 688 (2016) 77-82.

[24] L. Sun, Z.X. Lin, X.T. Zhou, Y.A. Zhang*, T.L. Guo. Synthesis of Cu-doped ZnO quantum dots and their applications in field emission. Journal of Alloys and Compounds, 671 (2016) 473-478.

[25] Y.A. Zhang, Z.H. Chu, X.T. Zhou, T.L. Guo. Efficient field emission characteristics from a planar-gate surface-conduction electron source with ZnO emitters. Journal of Alloys and Compounds, 2015, 644: 71-76.
授权专利:

[1] 张永爱, 郭太良. 一种微米级LED显示光效提取的微结构及其制造方法. ZL 201810066209 .6.

[2] 张永爱, 郭太良. 一种光效提取和无像素干扰的全彩化Micro-LED显示结构及其制造方法. ZL 201811093385.5.

[3] 张永爱, 郭太良. 可实现光效提取和色彩转换微米级LED显示装置及制造方法. ZL 201810066208.1.

[4] 张永爱, 郭太良. 一种实现Micro-LED显示出光效率提升和窜扰降低的微结构及其制造方法. ZL 201811093873.6.

[5] 张永爱, 郭太良. 一种集成触摸功能显示屏及其制造方法. ZL 201410237587.8.

[6] 张永爱,郭太良. 一种实现图形化喷墨打印精细障壁阵列及其制造方法, ZL 201610023109.6.

[7] 郭太良,张永爱. 一种电阻式触摸屏的3D制造方法,ZL 201410237620.7.

[8] 张永爱,郭太. 一种图形化厚膜银浆导电层的制造方法, ZL 201410237615.6.

[9] 张永爱, 郭太良. 一种3D制造网格状导电阵列的方法, ZL 201410237626.4.

[10] 张永爱, 郭太良. 一种面光源封装LED及其3D-LED显示系统, ZL 201410321799.4.

[11] 张永爱郭太良. 一种平面型场致发射背光源及其制造方法, ZL 201410237600.X.

[12] 张永爱, 郭太良. 一种动态液晶光栅的控制方法,, ZL 201310178065.0.

[13] 张永爱, 郭太良. 一种液晶透镜及包含该液晶透镜的裸眼立体显示装置, ZL 201310065079.1.X.

[14] 张永爱, 郭太良. 一种无莫尔条纹的 3D-LED 显示系统, ZL 201410322016.4.

[15]张永爱, 郭太良. 一种视点数可控的立体显示装置, ZL 201310366832.0.

[16]张永爱, 郭太良. 可实现2D/3D转换的光栅装置及包含该装置的显示器, ZL 201310255714.2.

[17]张永爱, 郭太良. 一种增强裸眼立体显示空间连续性的光栅,  ZL 201410121633.8.

[18]张永爱, 郭太良. 基于LED的双面光栅立体显示装置及其制作方法,  ZL 201210094884.2.

[19]张永爱, 郭太良. 一种可实现图片切换的显示装置, ZL 201310082918.0.

[20]张永爱, 郭太良. 用厚膜介质作为隔离子的场致发射显示结构, ZL 201210082091.9.

[21]郭太良, 张永爱. A triode-structured field emission display with anode and gate on the same substrate, PCT/CN2011/078370, 2014.08.

[22]张永爱, 郭太良. 平整裸眼 3D显示柱透镜光栅及其制作方法ZL 201110438216.2.

[23]张永爱, 郭太良. 基于氧化物纳米结构的表面传导电子发射源及其制作方法, ZL 201110167432.8.

[24]郭太良, 张永爱. 具有边缘增强效应的栅极场发射阴极结构及其制备方法ZL 201010200646.6.

科研项目:

[1] 基于液晶透镜阵列的集成成像光场2D/3D显示屏,国家重点研发计划,288万,2022-2025,课题负责人。

[2] 无注入红光纳米晶材料及其阵列化研究,国家重点研发计划,120万,2021-2024,子课题负责人。

[3] Micro-LED 芯片与CMOS 芯片键合技术研究,国家重点研发计划,110万,2020-2022,课题负责人。

[4] Mini-LED芯片、背光模组和显示集成关键技术开发与产业化,闽都创新实验室自主部署项目,1200万,2021-2024,项目负责人。

[5] 2D3D切换显示的可控液晶透镜及调控机制研究,福建省自然科学基金,8万,2019-2021,项目负责人。

[6] 基于CMOS驱动的µLED显示和色彩转换机理研究,福州大学国家级培育项目,25万,2019-2020,项目负责人。

[7] 新型平栅极表面传导电子发射源的制备及发射特性研究,国家自然科学基金,70万,2015-2018,项目负责人。
[8] 平栅极图形化碳纳米管场发射阴极发射特性与机理研究,福建省自然科学基金,5万,2013-2015,项目负责人。
[9] 高性能多点触摸屏共性关键技术开发,福建省经贸委,30万,2010-2012,项目负责人。
[10] 一体化OGS电容式触控玻璃开发,福建省发改委,60万元,2014-2016,技术负责人。
[11]大屏幕液晶电视机用高性能FED背光源开发,福建省发改委,50万元,2010-2012,技术负责人。
社会兼职:
SID会员
中国真空学会会员

国家新型显示产业技术创新战略联盟副秘书长

获奖情况
福建省高等学校新世纪优秀人才支持计划,2015年

福州大学杰出青年教师励志奖,2017年