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陈恩果


  个人简况:  

职称/职务

教授/博导

福建省高层次B类人才

福建省“雏鹰计划”青年拔尖人才(第五批)

福建省杰青项目获得者

福建省高等学校学科带头人培育计划(海外)

(合作教授:美国中佛罗里达大学,Prof. Shin-Tson Wu

福建省青年优秀人才访学研修计划

(合作教授:香港科技大学,Prof. Hoi Sing Kwok

招收学术型博士生专业 电子科学与技术(光电)、集成电路科学与工程
招收专业学位博士生专业 电子信息(工程博士)、集成电路科学与工程
招收学术型硕士专业 电子科学与技术一级学科及其下属二级学科(信息光电技术、物理电子学、电路与系统、微电子与固体电子学)
招收专业型硕士专业 电子信息一级学科及其下属二级学科(集成电路工程、电子与通信工程),含物信学院、先进制造学院
联系电话/微信 13599399819
办公地址 福州大学旗山校区国家大学科技园阳光楼南715
电子邮件 ceg@fzu.edu.cn
QQ 29978812

    工作经历:    

2022至今 福州大学教授、博导、硕导
2023至今 香港科技大学副研究员(兼)
2021至今
闽都创新实验室特聘研究员(兼)
2016-2022
福州大学副教授,期间破格晋升博导
2013-2016
福州大学讲师
2016 福建省发展与改革委员会高技术处挂职

 教学经验:

1、本科生专业课:主讲本科专业基础课程《工程光学》、专业必选课《照明工程应用》及《交互式富媒体及产业化模式》,其中《工程光学》入选福州大学本科专业核心课程立项建设课程

2、本科生实践课:主讲实践课程《光学系统设计实践》和《光电竞赛技能训练》,是光电系本科《毕业实习》和《毕业设计》的负责教师;参与讲授《教授讲座》等课程;指导国家级、省级、校级大学生科研训练计划(SRTP);

3、研究生专业课:主讲博士研究生专业课和硕士研究生学位基础课程《现代光学设计》、专业选修课《光电信息处理》;其中,《现代光学设计》列入福州大学2022年研究生课程思政示范课程

4、教改成果:主持校级教改项目和教材立项项目多项,独立编著教材《计算机辅助光学设计——CodeV应用基础》(清华大学出版社)、发表CSSCI一类核心《高等工程教育研究》教改论文1篇。

  个人简介:  

目前主要从事微纳显示光学设计研究,具体方向涉及AR/VR近眼显示、Micro-LED微显示与微投影、量子点发光显示等。

主持国家重点研发计划课题、国家自然科学基金面上/青年项目、省级及企业委托等各类项目20余项,发表论文160余篇,授权专利70余件。

获得福建省科技进步一二等奖、“日内瓦国际发明展”金奖等多个奖项。

学术任职主要包括SID China技术委员、CVS显示专委会秘书长、CSOE光显示专委会委员、CSIG三维成像与显示专委会委员。担任《光学学报》/《发光学报》/《红外与激光工程》/《液晶与显示》/《光学技术》青年编委、Phototnics和Crystals期刊客座编委,IEEE/OSA/SPIE member等,同时为国内外60余本期刊审稿。参与制定显示标准2件(Micro-LED 光学特性测试方法、液晶显示背光模组用量子点扩散板),多次担任国内外学术会议程序委员并作特邀报告。

 会议邀请报告:

2024,第十六届中国显示学术会议,OMTA 2024,第一届光显示大会,中国材料大会暨第二届世界材料大会,第五届世界光子大会(AOPC),Light Conference,ICDT 2024

2023,Photonics AsiaSPIE/COS),第六届光学青年科学家学术年会,光学工程前沿交叉科学大会,International Conference on Display Technology  (ICDT),首届中国新材料技术应用大会暨首届中国新材料投资大会,第五届中国光学青年科学家圆桌论坛

2022,Photonics Asia(SPIE/COS),IEEE NANO,22nd International Meeting on Information Display (IMID 2022),International Conference on Display Technology  (ICDT)

2021,The 28th International Display Workshops (IDW ’21),Japan,第十二届国际信息光学与光子学学术会议 CIOP,第十一届立体图像技术学术会议会议(S3DI),International Conference on Display Technology  (ICDT)

2020,福建省光学学会2020学术年会,SID Young Leader Conference, with Korean information display sociaty,International Conference on Display Technology  (ICDT), SID China春季线上技术研讨会

  课题组部分毕业研究生去向:

2024届,厦门大学攻博(邓立文)、舜宇光学(金华健)、谷东科技(林子健)、开立医疗(张文艳)、联合光电(陈慷慷、郝伟杰)、夏天文(格兰菲智能科技)、等

2023届,香港科技大学攻博(江昊男)、长虹中央研究院(黎垚)、BYD(林梓滨)、华中科技大学攻博(张翔19光电本、优秀毕业生)、等

2022届,福州大学攻博(蔡俊虎),TCL华星光电(胡新培)、杭州远方光电、芯天下、深圳慧能泰半导体

2021届,福州大学博士后(谢洪兴),厦门大学攻博(杨涛)、VIVO、华为、中国电信、华佳彩、紫光展锐国家电网

2020届,联芯集成电路(林淑颜,优秀毕业生)、华南理工大学攻博(蔡静,优秀硕士论文)、紫光展锐、天马微电子、广东聚华印刷显示、福建省交通银行

2019届,华为杭州研究院中国联通、维信诺

2018届,华为杭州研究院(黄佳敏,优秀毕业生)

   附录1:论著    

【2024】

[160] Guijun Li, Man-Chun Tseng, Yu Chen, Fion Sze-Yan Yeung, Hangyu He, Yuechu Cheng, Junhu Cai, Enguo Chen*, and Hoi-Sing Kwok*, Color-conversion displays: current status and future outlook, Light: Science & Applications, 2024. https://doi.org/10.1038/s41377-024-01618-8

[159] Xiang Zhang, Jiajun Luo*, Enguo Chen*, and Abd. Rashid bin Mohd Yusoff*, Tandem light-emitting technology accelerates the commercial application of perovskite LEDs, Light: Science & Applications (2024) 13:292

[158]Junhu Cai, Wenzong Lai, Yu Chen, Xiang Zhang, Yaqian Zheng, Wenyan Zhang, Xiaogang Chen, Yun Ye, Sheng Xu, Qun Yan, Tailiang Guo, Enguo Chen*, Pushing Patterning Limits of Drop-On-Demand Inkjet Printing with Cspbbr3/PDMS Nanoparticles, Laser & Photonics Review, 2024, 2400298.https://doi.org/10.1002/lpor.202400298

[157] Xiang Zhang,Junhu Cai,Longwen Yang,Jiajun Luo*, Tailiang Guo, and Enguo Chen*, Ligand Strategy for Perovskite Displays: A Review, ACS Energy Letters, 2024, 9, 1587−1603.

[156] Xiang Zhang,# Jinghui Li,*,# Peipei Du,*,# Zixi Shen, Hao Chen, Haozhi Wang, Nian Liu, Junhu Cai, Jiajun Luo,* and Enguo Chen,* Structural Engineering for Efcient Transparent Vacuum-Deposited Perovskite Light-Emitting Diodes toward Intelligent Display, ACS Appl. Mater. Interfaces.,https://doi.org/10.1021/acsami.4c09719

[155] Tianwen Xia , Le Wang, Enguo Chen* , Zhonghang Huang*, Chunli Yan, Dalei Wu, Qun Frank Yan, and Jie Sun*, Comparison of GaN LED Optical Simulation in 2D and 3D Space Based on k-Domain Analysis Method, IEEE Journal of Quantum Electronics, 60, 3, 3200106, 2024. 

[154]陈晓钢, 赵梦云, 蔡俊虎, 李恭明, 查楠, 叶芸, 徐胜, 郭太良, 陈恩果*, 基于量子点@有序介孔复合材料的 Micro⁃LED 色转换特性,发光学报,45,1, 59-68, 2024.

[153]林子健,姚立胜,金华健,邱健滨,叶芸,徐胜,严群,郭太良,张万隆*,陈恩果*,偏振光复用的液晶体光栅波导 AR 近眼显示系统(邀请),液晶与显示,2024, 39(5): 646.

[152]Zhilin Sun, Shuzhan Yan, KangKang Chen, Zijian Lin, Yun Ye, Sheng Xu, Jie Sun, Qun Yan, Tailiang Guo, Enguo Chen*, Single-layer waveguide with compound metasurfaces for highly effcient and chromatic-aberration-free augmented reality near-eye displays, Optics and Lasers in Engineering 178 (2024) 108157

[151]Junhu Cai, Xiang Zhang, Yu Chen, Wenzong Lai, Wenyan Zhang, Zexi Lin, Yun Ye,

Sheng Xu, Tailiang Guo, Jiajun Luo*, Enguo Chen*, Highly luminescent CsPbX3/PMMA (X=Br, I) composites with improved stability for full-color Micro-LED displays,Journal of Luminescence 269 (2024) 120508.

[150] Enguo Chen, Zhengui Fan, Kaixin Zhang*, Chunlei Huang, Sheng Xu, Yun Ye, Jie Sun*,Qun Yan, Tailiang Guo, Broadband beam collimation metasurface for full-color micro-LED displays, Optics Express,32,6,10252-10264,2024

[149]Enguo Chen, Ziming Yao, Zhengui Fan, Wenzong Lai, Tao Liang, Qun Yan, Tailiang Guo, Chao Ping Chen*, Collimated LED Array with Mushroom-cap Encapsulation for Near-eye Display Projection Engine, IEEE Journal of Selected Topics in Quantum Electronics, 2024, 30, 2, 1–10. Digital Object Identifier: 10.1109/JSTQE.2024.3375929

[148] Haoyu Weng, Yun Ye, Xingke Zheng, Chaoxing Wu, Enguo Chen, Tailiang Guo, Non-contact AC power transmission system for driving mini-led based on magnetic coupling resonant, IEEE Electron Device Letters, 2024, 45, 288-291.

[147] Aochen Du, Xingke Zheng,, Genzhuang Li, Yun Ye, Enguo Chen, Sheng Xu, Tailiang Guo, Uncovering the structural and photoelectric properties of perovskite crystals by joint multifaceted characterization and theoretical analysis, Journal of Materials Research and Technology, 2024, 28, 3988-4000.

[146] Longwen Yang, Aochen Du, Xingke Zheng, Yun Ye, Enguo Chen, Sheng Xu, Tailiang Guo, Rapid room temperature synthesis of Mn-doped perovskite quantum dots for white-light-emitting diodes, Journal of the Optical Society of America B, 2024, 41(3), 809-819.

[145] Zhenyu Zeng, Hongxing Xie, Yun Ye, Xingke Zheng, Qizhong Lin, Enguo Chen, Sheng Xu, Tailiang Guo, Enhancement of photo-oxidation resistanceof guantum dots bv hindered phenol and itsapplication in diffusion plate, Optical Materials, 2024, 148, 114926.

[144] Xingke Zheng, Aochen Du, Yun Ye, Enguo Chen, Sheng Xu, Tailiang Guo, Unveiling Local Electronic Structures of Manganese-Doped Double Perovskites Red Emitters, Laser & Photonics Review, 2024, 2301076.

[143] Yaqian Zheng, Yanyu Duan, Yun Ye, Xingke Zheng, Aochen Du, Enguo Chen, Sheng Xu, Tailiang Guo,  Effect of Polymethyl Methacrylate on In Situ Patterning of Perovskite Quantum Dots by Inkjet Printing, Luminescence, 2024, 39, e4691.

[1421] Xingke Zheng, Aochen Du, Yun Ye, Enguo Chen, Sheng Xu, Tailiang Guo, "Synthesis, structural and optical properties of a novel double perovskite for LED applications, " Ceramics International, 2024, 50: 1474-1487

[141] Aochen Du, Xingke Zheng, Genzhuang Li, Yun Ye*, Enguo Chen, Sheng Xu, Tailiang Guo, Unlocking structural and photoelectric properties of lead-free double perovskites at high temperature, Journal of Luminescence 267 (2024) 120369

[140] Muwang Huang, Enguo Chen*, Design of fog transmission lens with large continuous zoom range, Proc. SPIE, 2024

[139] Yidan Huang, Wenzong Lai and Enguo Chen*. Displacement Sensing for Laser Self-Mixing Interferometry by Amplitude Modulation and Integral Reconstruction. Sensors,24, 3785,2024

[138] Lin, Zijian, Wanglong Zhang, Huajian Jin, Lisheng Yao, Qun Yan, Tailiang Guo, and Enguo Chen*. “P-4.25:AR Waveguide Display with Enlarged Eyebox Based on Polarization Volume Gratings.” SID Symposium Digest of Technical Papers 55 (S1):  846–48, 2024. https://doi.org/10.1002/sdtp.17218.

[137] Hao, Weijie, Huajian Jin, Enguo Chen*, Sheng Xu, Yun Ye, and Tailiang Guo.  “P-17.3: Micro-LED Projection Display Resolution Enhancement System.” SID Symposium Digest of Technical Papers 55 (S1): 1550–53. 2024, https://doi.org/10.1002/sdtp.17423.

[136] Wu, Wenlin, Xiangzhi Xiao, Sheng Xu, Enguo Chen, Tailiang Guo, and Qun Yan. “36-5: Research on the Structure of Low Color Crosstalk Grillless Optical Cavity Based on Partition Toning Technique.” SID Symposium Digest of Technical Papers 55 (S1): 306–7. 2024.https://doi.org/10.1002/sdtp.17068.

[135] Du, Aochen, Xingke Zheng, Yun Ye Sheng Xu, Enguo Chen, and Tailiang Guo. “8-1: High Power Solid State Lighting via Transparent Ceramics Protecting Quantum Dots Diffusion Plates.” SID Symposium Digest of Technical Papers 55 (S1): 79–79. 2024. https://doi.org/10.1002/sdtp.17000.

[134] Xiao, Xiangzhi, Xinyu Lin, Wenlin Wu, Sheng Xu, Enguo Chen, Tailiang Guo, and Qun Yan. “36-3: Research on Partitioned Color Calibration Principle and Frame Rate Reduction Technology Based on Liquid Crystal Displays.” SID Symposium Digest of Technical Papers 55 (S1): 301–301. 2024. https://doi.org/10.1002/sdtp.17066.

[133] Hu, Lunze, Liujun Yuan, Yanzhuo Hu, Enguo Chen, Sheng Xu, Tailiang Guo, and Yun Ye. “P-2.1: Multi-Scale Feature Fusion Generative Adversarial Network for Image Inpainting.” SID Symposium Digest of Technical Papers 55 (S1): 702–5. 2024. https://doi.org/10.1002/sdtp.17181.

[132] Yuan, Liujun, Yanzhuo Hu, Lunze Hu, Enguo Chen, Sheng Xu, Tailiang Guo, and Yun Ye. “P-6.16: Design of Hardware Accelerator for Real-Time Edge Detection System Based on FPGA.” SID Symposium Digest of Technical Papers 55 (S1): 1040–43, 2024. https://doi.org/10.1002/sdtp.17271.

[131] Yang, Longwen, Aochen Du, Xingke Zheng, Yun Ye, Enguo Chen, Sheng Xu, and Tailiang Guo. “P-14.1: Rapid Synthesis of Manganese Doped Perovskite Quantum Dots for White Light-Emitting Diodes.” SID Symposium Digest of Technical Papers 55 (S1): 1415–16, 2024. https://doi.org/10.1002/sdtp.17383.

【2023】

[130] Yinguo Yan, Yuze Xiao, Junhu Cai, Yushuo Zhang, Yun Ye, Sheng Xu, Qun Yan, Tailiang Guo, and Enguo Chen*, "Quantum-dot color wheel for projection displays," Optica 10,11, 1559-1566 (2023)(入选“中国光学十大进展备选库)

254EC4

[129] Wenyan Zhang, Yu Chen, Junhu Cai, Liwen Deng, Sheng Xu,Yun Ye,Qun Yan, Tailiang Guo, Enguo Chen*, Uniformity improvement of mini-LED backlight by quantum-dot color conversion film with non-uniform thickness. Optics Letters.48(21),5643-5646,2023.(Editor's Pick,编辑精选论文Top5%)

[128] Aochen Du, Genzhuang Li, Xingke Zheng, Yun Ye, Enguo Chen, Sheng Xu, Tailiang Guo, "Photoelectric and structural properties of super stable perovskite quantum dots glasses for contactless underwater electroluminescent LEDs," Journal of Materials Research and Technology, 2023, 26: 7972-7983.

[127] Huajian Jin, Zijian Lin, Weijie Hao, Yun Ye, Sheng Xu, Qun Yan, Tailiang Guo, Enguo Chen*, "Design of micro-LED pico-projection optical engine based on an image fiber," Proc. SPIE 12765, Optical Design and Testing XIII, 127650A (28 November 2023); doi: 10.1117/12.2687360

[126] Aochen Du, Wenxiao Zhao, Yun Ye, Enguo Chen, Sheng Xu, Tailiang Guo, "Perovskite quantum-dots glasses with excellent stability and optical properties for laser projection," Journal of the Society for Information Display, 2023, 31: 466-475.

  [125] Aochen Du, Genzhuang Li, Xingke Zheng, Yun Ye, Enguo Chen, Sheng Xu, Tailiang Guo, Unlocking structural and photoelectric properties of lead-free double perovskites at high temperature, Journal of Luminescence, 2023, accepted.

  [124] Zaifa Du, Enguo Chen, Hongjuan Feng, Fengsong Qian,Fangzhu Xiong, Penghao Tang, Weiling Guo, Jibin Song, Qun Yan,Tailiang Guo, Jie Sun, "Efficiency improvement of GaN-based micro-light-emitting diodes embedded with Ag NPs into a periodic arrangement of nano hole channel structure by ultra close rangelocalized surface plasmon coupling," Nanotechnology, 2022, 33: 495202.

[123] Tianwen Xia,Yongzhen Liu, Zhonghang Huang, Dalei Wu, Tao Liang, Enguo Chen*, Jie Sun*,Qun Yan, Tailiang Guo. 3.1: Invited Paper: Improving the front emission of Micro‐LED by using a sidewall light guide structure. SID Symposium Digest of Technical Papers, Volume 54 (S1) – Apr 1, 2023.(Distinguished Paper Award)

[122] Junhu Cai, Xiaogang Chen, Wenyan Zhang, Longwen Yang, Zexi Lin, Wenxiao Zhao, Yun Ye, Sheng Xu, Tailiang Guo, Enguo Chen*, Two-Step Performance Optimization of CsPbBr3 Perovskite Nanocrystals for Wide Color Gamut Displays. Photonics. 2023; 10(10):1113.(Liquid Crystals in Photonics专题约稿)

[121] 陈恩果, 陈慷慷, 范祯桂, 孙志林, 林子健, 张恺馨,* 孙捷, 严群, 郭太良, 增强现实显示光学引擎中光波导耦出超表面设计(特邀), 红外与激光工程, 2023, 52 (7): 20230342.

[120] 王书龙,林子健,徐世祥,王瑜,羊琨,黄一丹,陈恩果*. 增强现实近眼显示中辐辏调节冲突研究进展[J].光学学报,2023, 43(23):230001.(特邀综述/亮点文章)

[119] Enguo Chen, Mengyun Zhao, Kangkang Chen, Huajian Jin, Xiaogang Chen, Jie Sun, Qun Yan, and Tailiang Guo, Metamaterials for light extraction and shaping of micro-scale light-emitting diodes: from the perspective of one-dimensional and two-dimensional photonic crystals, Optics Express 31, 11, 18210-18226 (2023).
  [118] Xiang Zhang, Anlan Chen, Tao Yang, Junhu Cai, Yuanyuan Ye, Enguo Chen,* Sheng Xu, Yun Ye, Jie Sun , Qun Yan, and Tailiang Guo, Corrections to “Tripling Light Conversion Efficiency of µLED Displays by Light Recycling Black Matrix”,IEEE Photonics Journal, 15, 3, 9700101, 2023
  [117] Aochen Du, Debing Shen, Wenxiao Zhao, Yongzhen Liu, Xinzhi Qin, Zexi Lin, Yun Ye,* Enguo Chen,* Sheng Xu, and Tailiang Guo, Structural, vibrational, photoelectrochemical, and optical properties of two-dimensional Ruddlesden-Popper perovskite BA2PbI4 crystals, Nanoscale, 2023, 15, 8675-8684.
  [116] Liwen Deng, Xiang Zhang, Yinguo Yan, Yuze Xiao, Ziming Yao, Enguo Chen* , Sheng Xu, Yun Ye, Jie Sun, Qun Yan, Tailiang Guo, Ambient contrast ratio of quantum-dot color-converted micro-LED displays, Results in Physics 48 (2023) 106462
  [115] 严银菓,蔡俊虎,周小健,陈恩果*,徐胜,叶芸,郭太良.基于原子层沉积的量子点色彩转换膜封装[J].发光学报,44, 6, 1059-1068, 2023

[114] Yao Li, Haonan Jiang, Yinguo Yan, Yongzhen Liu, Ziping Zhou, Enguo Chen*, Yun Ye, Sheng Xu, Qun Yan, Tailiang Guo,Highly efficient and ultra-compact micro-LED pico-projector based on a microlens array, J Soc Inf Display. 2023,31,483–493, DOI: 10.1002/jsid.1215

[113] Yongzhen Liu, Tianwen Xia, Aochen Du, Tao Liang, Zhengui Fan, Enguo Chen*, Jie Sun, Qun Yan, and Tailiang Guo, "Omnidirectional color shift suppression of full-color micro-LED displays with enhanced light extraction efficiency," Opt. Lett. 48(7), 1650-1653 (2023)

[112] Zibin Lin, Haonan Jiang, Daochun Ye, Wenyan Zhang, Enguo Chen*, Yun Ye, Sheng Xu, Qun Yan, and Tailiang Guo."Zero-Optical-Distance Mini-LED Backlight with Cone-Shaped Light Coupling Microstructures" Crystals 13, no. 2: 241, 2023.(“Frontiers in Optics of Liquid Crystals and Displays”专题约稿)

[111] Bingle Huang*, Nan Zha, Enguo Chen*, Tailiang Guo, "Patternable quantum dot color conversion film based on photolithography technique," Optical Engieering. 62(2) 027103 (2023)

[110] Aochen Du, Wenxiao Zhao, Yu Peng, Xinzhi Qin, Zexi Lin, Yun Ye*, Enguo Chen*, Sheng Xu, and Tailiang Guo, Cs(Pb,Mn)Br3 Quantum Dots Glasses with Superior Thermal Stability for Contactless Electroluminescence Green−Emitting LEDs. Nanomaterials. 2023; 13(1):17.

[109]叶道春, 谢洪兴, 李思杰, 季洪雷, 许怀书, 李阳, 孙磊, 陈恩果*,徐胜,叶芸,严群,郭太良. 液晶显示用量子点扩散板的研究进展. 液晶与显示, 38(3), 304-318, 2023(“量子点液晶显示应用技术”专栏约稿)

【2022】

[108]Zaifa Du, Hongjuan Feng, Yongzhen Liu, Penghao Tang, Fengsong Qian, Jie Sun*, Weiling Guo, Jibin Song*, Enguo Chen*, Tailiang Guo, and Qun Yan,Localized Surface Plasmon Coupling Nanorods with Graphene as a Transparent Conductive Electrode for Micro Light-Emitting Diodes,IEEE Electron Device Letters, 43(12),2133-2136 (2022).

[107] 黎垚,江昊男,周自平,董金沛,陈恩果*,叶芸,徐胜,孙捷,严群,郭太良.超微型Micro-LED投影显示光学引擎设计研究,液晶与显示,2022, 1-9. DOI: 10.37188/CJLCD.2022-0216.。(“Mini/Micro-LED发光器件与显示应用”专栏约稿)

[106] Haonan Jiang,Zibin Lin,Yao Li,Ziping Zhou,Enguo Chen*,Sheng Xu,Yun Ye,Qun Yan,Tailiang Guo,Design of self-luminous pico-projection optical engine based on a quantum-dot color converted micro-LED, Proc.SPIE,12448,1244815 (2022)(青年科学家论坛邀请)

[105] Sheng Xu,Xinyu Lin,Xiang Zhang,Enguo Chen*,Yun Ye, Tailiang Guo, and Qun Frank Yan,Quantum-dot Color Conversion towards White-balanced Healthy Displays: Theoretical and Simulation Study,Journal of the Society for Information Display,30,11,837-844,2022.(BEST of ICDT,封面文章)


479FB

[104] Wenyan Zhang,Xinpei Hu,Yu Chen,Zibin Lin,Enguo Chen*,Yun Ye,Sheng Xu,Tailiang Guo.Design of quantum-dot color conversion film for mini-LED backlights, Proc.SPIE,12315,1231503, 2022.(Invited paper,SPIE/COS Photonics Asia

[103] Xinxin Ren, Xiang Zhang, Hongxing Xie, Junhu Cai, Chenhui Wang, Enguo Chen*, Sheng Xu, Yun Ye, Jie Sun, Qun Yan, and Tailiang Guo. "Perovskite Quantum Dots for Emerging Displays: Recent Progress and Perspectives" Nanomaterials, 12, 13: 2243.(Invited paper,封面文章


[102] Xinpei Hu, Junhu Cai, Yongzhen Liu, Mengyun Zhao, Enguo Chen*, Jie Sun, Qun Yan, and Tailiang Guo,Design of inclined omni-directional reflector for sidewall-emission-free micro-scale light-emitting diodes,Optics & Laser Technology 154 (2022) 108335

[101] Junhu Cai, Chenhui Wang, Xinpei Hu, Yuanyuan Ye, Lijuan Zhong, Enguo Chen*, Yun Ye, Sheng Xu, Jie Sun, Qun Yan, and Tailiang Guo, "Water-driven photoluminescence reversibility in CsPbBr3/PDMS-PUa composite," Nano Research, 15(7): 6466-6476
(2022).

[100] Yiyi Xiao, Hao Zhang*, Weijuan Chen, Shuyan Huang, Xiaolin Wang, Xiaohua Hu, Enguo Chen*, Xiaogang Chen, Dongying Chen, Chirped fber grating loop ring-down strain sensors based on overlap spectrum demodulation, Optical Fiber Technology 71 (2022) 102911.

[99] Liwen Deng, Ju Guo, Enguo Chen*, Sheng Xu, Yun Ye, Qun Yan, Tailiang Guo, Analysis on a Three-dimensional Local Dimming BacklightPROCEEDINGS OF THE INTERNATIONAL DISPLAY WORKSHOPS, VOL.28, 2021.(Invited paper)

[98] 周自平,黎垚,严银菓,江昊男,陈恩果*,徐胜,叶芸孙捷,严群,郭太良,Micro-LED 应用于近眼显示的现状与趋势,液晶与显示37,6,661-679(2022)

(期刊封面文章, 被“中国光学”编辑部选为重点推送文章)


[97] 蔡俊虎,王晨辉,胡新培,陈恩果*,徐胜,叶芸,郭太良,CdSe/CdS量子点聚合物复合材料的水致荧光可逆特性, 光学报, 43(5),714-724(2022).

[96] Chenhui Wang, Junhu Cai, Yuanyuan Ye, Xinpei Hu, Lijuan Zhong, Hongxing Xie, Enguo Chen*, Yun Ye, Sheng Xu, Jie Sun, Qun Yan, and Tailiang Guo, "Full-visible-spectrum perovskite quantum dots by anion exchange resin assisted synthesis," Nanophotonics,11,1355-1366 (2022).

[95] 王晨辉,蔡俊虎,胡新培,陈恩果*,徐胜,叶芸,郭太良, 离子交换树脂改性的CsPbBr3量子点特性研究, 光子学报, 2022,51(6):0616001

[94] 胡新培,蔡俊虎,叶媛媛,陈恩果*,孙捷,严群,郭太良, 高光效GaN基Micro-LED仿真模型研究, 光学学报,2022,42,15,1525001.

[93] Yu Chen, Junhu Cai, Jianyao Lin, Xinpei Hu, Chenhui Wang, Enguo Chen∗, Jie Sun, Qun Yan, and Tailiang Guo, "Quantum-dot array with a random rough interface encapsulated by atomic layer deposition," Optics Letters,47(1),166-169(2022).

[92] Xiang Zhang, Anlan Chen, Tao Yang, Junhu Cai, Yuanyuan Ye, Enguo Chen*, Sheng Xu, Yun Ye, Jie Sun, Qun Yan, and Tailiang Guo, "Tripling Light Conversion Efficiency of µLED Displays by Light Recycling Black Matrix," IEEE Photonics Journal,14(2),7014207(2022).

[91] Bingle Huang , Enguo Chen*, Lei Sun, and Tailiang Guo, "Corrigendum to “Quantum-dot color conversion flm patterned by screen printing and overprinting process for display backlights” [Opt. Laser Technol. 145 (2022) 107486]," Optics and Laser Technology, 147, 107617(2022).

[90] Bingle Huang , Enguo Chen*, Lei Sun, and Tailiang Guo, "Quantum-dot color conversion film patterned by screen printing and overprinting process for display backlights," Optics and Laser Technology, 145, 107486(2022).

[89] Honglei Ji, Daochun Ye, Huaishu Xu, Enguo Chen*, Ziyi Ge, Multi-layer Co-extruded Quantum-dot Diffuser Plate for Ultra-large TV Backlights, Optical Materials Express,60(23), (2022).(封面文章)


80D5E


[88] Hai Wang, Le Wang, Jie Sun*, Tai-Liang Guo, En-Guo Chen, Xiong-Tu Zhou, Yong-Ai Zhang, Qun Yan*, Role of surface microstructure and shape on light extraction effciency enhancement of GaN micro-LEDs: A numerical simulation study, Displays, 73,102172 (2022).

[87] Ziping Zhou, Aochen Du, Enguo Chen*, Sheng Xu, Yun Ye, Tailiang Guo. Full-color augmented reality using quantum-dot color conversion film, International Conference on Display Technology 2022, 2022, 53(S1): 670-670.

[86] Aochen Du, Wenxiao Zhao, Yun Ye, Sheng Xu, Enguo Chen, Tailiang Guo. Performance of Laser-Driven Phosphor Wheel Based on Phosphor Ceramics and Perovskite Quantum-Dots, International Conference on Display Technology 2022, 2022, 53(S1): 89-89.

[85] Zibin Lin, Haonan Jiang, Daochun Ye, Enguo Chen*, Sheng Xu, Yun Ye, Tailiang Guo. Ultra-thin mini-LED backlight using a light coupling structure, International Conference on Display Technology 2022, 2022, 53(S1): 313-313.(Invited paper)

【2021】

[84] Haonan Jiang, Zibin Lin, Yao Li, Yinguo Yan, Ziping Zhou, Enguo Chen*, Qun Yan, Tailiang Guo, "Projection optical engine design based on tri-color LEDs and digital light processing technology," Appl. Optics 60(23), 6971-6977 (2021).

[83] Yuanyuan Ye, Sheng Xu*, Enguo Chen*, Yun Ye, Xinpei Hu, Lijuan Zhong, Junhu Cai, Chenhui Wang, Tao Yang, Light efficiency enhanced quantum dot color conversion layer based on a distributed bragg reflector, Proc. of SPIE Vol. 12057, 120573I-1 (2021).

[82] Zongzhao Jiang, Yun Ye*, Ju Guo, Jianhao Pan, Xianghong Cao, Tailiang Guo, and Enguo Chen*, "Optimal dimension of edge-lit light guide plate based on light conduction analysis," Opt. Express 29, 18705-18719 (2021).

[81] Enguo Chen, Ju Guo, Zongzhao Jiang, Qiongxin Shen, Yun Ye, Sheng Xu*, Jie Sun*, Qun Yan, and Tailiang Guo, "Edge/direct-lit hybrid mini-LED backlight with U-grooved light guiding plates for local dimming," Opt. Express 29, 12179-12194 (2021).

[80] Sheng Xu, Tao Yang, Qiongxin Shen, Yun Ye, Enguo Chen*, Qun Yan, Tailiang Guo, "28.2: Invited Paper: Precise Theoretical Model for Quantum‐dot Color Conversion," SID Symposium Digest of Technical Papers, 52(S2), 377(2021). (ICDT Distinguished Paper)

[79] Sheng Xu, Tao Yang, Jianyao Lin, Qiongxin Shen, Jinan Li, Yuanyuan Ye, Luanluan Wang, Xiaojian Zhou, Enguo Chen*, Yun Ye, and Tailiang Guo, "Precise theoretical model for quantum-dot color conversion," Opt. Express 29, 18654-18668 (2021). (This paper was presented in ICDT as an invited paper and granted as ICDT Distinguished Paper)

[78] Enguo Chen*, Jianyao Lin, Tao Yang, Yu Chen, Xiang Zhang, Yun Ye, Jie Sun*, Qun Yan, and Tailiang Guo, "Asymmetric Quantum-Dot Pixelation for Color-Converted White Balance," ACS Photonics , 8, 2158−2165 (2021).(封面文章)

Research Features报道链接及全文:https://researchfeatures.com/bigger-brighter-quantum-dot-pixilation-technologies-displays/



[77] Ju Guo, Zongzhao Jiang, Fang Gao, Enguo Chen*, Sheng Xu, Yun Ye, 28.1: Invited Paper: Two‐dimensional local dimming by using multiple physical partitions of grooved and edge‐lit light guide plate.  SID Symposium Digest of Technical Papers, 52(S1), 177-178(2021). (ICDT Distinguished Paper)


[76] Yinguo Yan ,Enguo Chen*, Yun Ye, Qun Yan, Tailiang Guo. Design and Simulation of Micro-LED Micro Projection Optical Engine, 第10届亚洲和澳大利亚真空与表面科学会议、中国真空学会2021学术年会、第十五届国际真空科学与工程应用学术会议论文集, 2021:333-334. DOI:10.26914/c.cnkihy.2021.038620.

[75] Ziping Zhou, Enguo Chen*, Sheng Xu, Yun Ye, Qun Yan, Tailiang Guo. Analysis of ambient light contrast of quantum dot color conversion layer, 第10届亚洲和澳大利亚真空与表面科学会议、中国真空学会2021学术年会、第十五届国际真空科学与工程应用学术会议论文集, 2021, 312-313. DOI: 10.26914/c.cnkihy.2021.038621

[74] Mengyun Zhao,Sheng Xu,Yun Ye,Enguo Chen,Qun Yan,Tailiang Guo. Wide-color-gamut quantum-dot white light diode by reduced reabsoption loss[A].第10届亚洲和澳大利亚真空与表面科学会议、中国真空学会2021学术年会、第十五届国际真空科学与工程应用学术会议论文集. 2021:332-333. DOI:10.26914/c.cnkihy.2021.038619

[73] 郭举,申琼鑫,江宗钊,陈恩果*, 郭太良, Mini-LED背光区域调光单元的光学特性研究. 液晶与显示 36(7), 939-946 (2021). (被“中国光学”编辑部选为重点推送文章)

[72] 陈恩果 编,《计算机辅助光学设计——CODE V应用基础》,清华大学出版社,2021

[71] L. A. Ma; Y. B. Chen; X. Y. Ye; Z.H. Wei; L. Huang; H. X. Chen; Q. T. Wang; E. G. Chen, "The effect of TiN deposition time on the field-emission performance coated on ZnO nanorod arrays," Ceramics International 47(19), 27487-27495 (2021)

[70] Jianyao Lin, Yu Chen, Yun Ye, Sheng Xu, Tailiang Guo, and Enguo Chen*, "Patternable quantum-dot photoresist with high photolithographic uniformity," Science of Advanced Materials 13, 624-631 (2021) (Invited paper)

【2020】

[69] Tao Zhan, Junyu Zou, Matthew Lu, Enguo Chen, Shin-Tson Wu, "Wavelength-multiplexed multifocal displays," Proc. SPIE 11304, Advances in Display Technologies X, 1130408 (2020).

[68] Hongxing Xie, Enguo Chen*, Yun Ye, Sheng Xu, and Tailiang Guo*, "Interfacial optimization of quantum dot and silica hybrid nanocomposite for simultaneous enhancement of fluorescence retention and stability," Appl. Phys. Lett. 117, 171101 (2020).

[67] Xianghong Cao, Yun Ye*, Qian Tang, Enguo Chen, Zongzhao Jiang, Jianhao Pan, and Tailiang Guo*,Numerical Analysis of Droplets from Multinozzle Inkjet Printing, J. Phys. Chem. Lett. 2020, 11, 8442–8450.

[66] Hongxing Xie, Enguo Chen*, Yun Ye, Sheng Xu, and Tailiang Guo*, "Highly Stabilized Gradient Alloy Quantum Dots and Silica Hybrid Nanospheres by Core Double Shells for Photoluminescence Devices," J. Phys. Chem. Lett. 2020, 11, 1428−1434.(封面文章)



[65]Jing Cai, Jianyao Lin, Yu Chen, Sheng Xu, Yun Ye, Enguo Chen*, and Tailiang Guo*, "Stacked Encapsulation Structure for Discretely Distributed Quantum Dot Arrays," IEEE Photonics Journal 12(20), 7000310 (2020).

[64] Lei Sun, Enguo Chen*, and Tailiang Guo, Field emission enhancement of composite structure of ZnO quantum dots and CuO nanowires by Al2O3 transition layer optimization. Ceramics international, 46, 15565-15571, 2020. (Selected as a key scientific article in Advances in Engineering)

WebSite: https://advanceseng.com/field-emission-enhancement-composite-structure-zno-quantum-dots-cuo-nanowires-al2o3-transition-layer-optimization/

[63] 叶芸,喻金辉,林淑颜,陈恩果,徐胜*,郭太良. 量子点背光技术的研究进展, 中国光学 13(1):14-27 (2020).

[62] 赵焱, 姚剑敏,陈恩果*,叶芸,严群,郭太良, 基于双目立体视觉的指针式仪表判读算法. 传感器与微系统39(7), 119-126 (2020).

【2019】

[61] 郭太良,缪煌辉,林淑颜,郭骞,叶芸,陈恩果,徐胜*. 基于分布式布拉格反射器的量子点彩膜, 液晶与显示 34(3):229-235 (2019).

[60] 雷霄霄,叶芸*,林楠,陈恩果,郭太良. 喷墨打印量子点薄膜的形貌控制, 光子学报 48(6):0616001 (2019).

[59] 雷霄霄,叶芸*,林楠,陈恩果,郭太良. 粘度对喷墨打印液滴体积的影响, 发光学报 40(8), 1040-1048 (2019).

[58] Qian Guo, Yun Ye*, Enguo Chen*, Sheng Xu. Two-step optimization for pattern array to improve light extraction efficiency and uniformity in light guide plate, Applied Optics 58(33), 9178-9185 (2019).

[57] Enguo Chen, Shuyan Lin, Zongzhao Jiang, Qian Guo, Sheng Xu*, Yun Ye*, Qun Frank Yan, and Tailiang Guo, "Analytic design of light extraction array for light guide plate based on extended sources," Optics Express 27(24), 34907-34920 (2019).

[56] Shuyan Lin, Jinhui Yu, Jing Cai, Enguo Chen*, Sheng Xu, Yun Ye, and Tailiang Guo, "Design of a freeform lens array based on an adjustable Cartesian candela distribution," Journal of Modern Optics 66(10), 2015-2024 (2019).

[55] 甄艳坤,白燕,陈恩果*. 均匀准直照明TIR自由曲面透镜设计, 光学技术 45(6), 647-652(2019).

[54] Tao Zhan, Junyu Zou, Matthew Lu, Enguo Chen, and Shin-Tson Wu*. Wavelength-multiplexed multi-focal-plane see-through near-eye displays, Optics Express 27(20), 27507-27513 (2019).

[53] Shuyan Lin, Guanjun Tan, Jinhui Yu, Enguo Chen*, Yalian Weng, Xiongtu Zhou, Sheng Xu, Yun Ye, Qun Frank Yan, and Tailiang Guo. Multi-primary-color quantum-dot down-converting films for display applications, Optics Express 27(20), 28480-28493 (2019).

[52] Enguo Chen, Jing Cai, Zhengxing Cui, Yun Ye, Sheng Xu, Jinhui Yu, Hongxing Xie, Qun Frank Yan, Tailiang Guo. P‐96: Photoluminescence Quantum‐Dot Microstructure Array for LCD Backlights, SID Symposium Digest of Technical Papers, 50(1), 1595-1598 (2019).

[51] 陈瑜, 赵焱, 曾祥耀, 姚剑敏, 叶芸, 林志贤, 陈恩果*.垂直/倾斜型交错狭缝光栅对立体显示效果的影响. 液晶与显示, 34(7), 659-666 (2019).

[50] Cuiling Meng, Enguo Chen*, Liping Wang, Shutuen Tang, Manchun Tseng, Ju Guo, Yun Ye, Qun Frank Yan, and Hoising Kwok*. "Color-switchable liquid crystal smart window with multi-layered light guiding structures," Optics Express 27, 13098-13107 (2019).

[49] Enguo Chen, Jing Cai, Xiangyao Zeng, Sheng Xu*, Yun Ye, Qun Frank Yan, and Tailiang Guo, "Ultra-large moiré-less autostereoscopic three-dimensional light-emitting-diode displays," Optics Express 27, 10355-10369 (2019).

[48] Enguo Chen, Yan Zhao, Shuyan Lin, Jing Cai, Sheng Xu, Yun Ye*, Qun Frank Yan, and Tailiang Guo, "Design of improved prototype of two-in-one polarization-interlaced stereoscopic projection display," Optics Express 27, 4060-4076 (2019).

[47] Bingle Huang, Tailiang Guo, Sheng Xu, Yun Ye, Enguo Chen*, and Zhixian Lin*. "Color Converting Film With Quantum-Dots for the Liquid Crystal Displays Based on Inkjet Printing." IEEE Photonics Journal, 11(3), 7000609 (2019).

[46] Sheng Xu, Tao Yang, Huanghui Miao, Yuzhen Xu, Qiongxin Shen, Tailiang Guo, Zhengxing Cui, Enguo Chen*, and Yun Ye, "Tilted light coupling structure for the thickness reduction of a liquid crystal display backlight," Applied Optics. 58, 2567-2574 (2019).

[45] Jianpu Lin, Weixing Wang, Jianmin Yao, Tailiang Guo, Enguo Chen*, and Qun Frank Yan*. "Fast multi-view image rendering method based on reverse search for matching." Optik - International Journal for Light and Electron Optics, 180, 953-961 (2019).

[44] Zongzhao Jiang, Chenglin Lv, Yaotang You, Zhongxu Liu, Sheng Xu, Enguo Chen*, and Yun Ye*. "Interactive design of scattering dots array on light guide plate for LCD backlight." Proc. SPIE 10838, 108380X (2019).

【2018】

[43] Enguo Chen, Hongxing Xie, Jiamin Huang, Huanghui Miu, Genrong Shao, Yang Li, Tailiang Guo, Sheng Xu*, and Yun Ye*, "Flexible/curved backlight module with quantum-dots microstructure array for liquid crystal displays," Optics Express 26, 3466-3482 (2018).

[42] 刘福权, 赵焱, 吴振金, 陈恩果*, 郭太良. 典型折反式超短投射比投影显示系统的光电测试研究. 光学技术, 44(1), 56-62 (2018).

[41] 周雄图, 陈恩果, 林志贤. 《平板显示技术》课程教学模式探索与实践. 教育教学论坛, 367(25):138-141 (2018).

【2017】

[40] Bingle Huang, Jintang Lin, Yun Ye, Sheng Xu, Enguo Chen*, and Tailiang Guo*. "Pattern optimization of compound optical film for uniformity improvement in liquid-crystal displays." Optics and Laser Technology,97, 254-259(2017).

[39] Xiangyao Zeng,  Xiongtu Zhou, Tailiang Guo, Lan Yang, Enguo Chen*, and Yongai Zhang*. "Crosstalk reduction in large-scale autostereoscopic 3d-led display based on black-stripe occupation ratio." Optics Communications,389, 159-164(2017).

[38] Xiangyao Zeng, Lan Yang, Xiongtu Zhou, Yongai Zhang, Enguo Chen*, and Tailiang Guo*. "Pixel arrangement optimization of two-dimensional light-emitting diode panel for low-crosstalk autostereoscopic light-emitting diode displays." Optical Engineering,56(6), 063104 (2017).

[37] Hongxing Xie, Jiamin Huang, Yun Ye, Enguo Chen*, Sheng Xu*, "Fabrication and performance study of light guide plate for LCD backlight based on quantum-dot scattering microstructure array," Proc. SPIE 10459, 104590S (2017)

[36] Yan Zhao, Hongxing Xie, Jianmin Yao, Enguo Chen*, Sheng Xu*, "An improved longitude-latitude mapping algorithm for fisheye image calibration," Proc. SPIE 10462, 104622U (2017).

[35] 曾祥耀, 赵焱, 郭太良, 林志贤, 周雄图, 张永爱, 杨兰, 陈恩果*. 立体显示在虚拟/增强现实技术中的应用与发展. 电视技术, 41(9), 135-140 (2017).

[34] 黄佳敏, 陈恩果*, 郭太良. 量子点背光源白平衡特性的研究. 液晶与显示, 32(2), 77-83 (2017).

[33] 陈恩果, 周心禺, 郭太良. 基于多通道实时动态反馈的 LED 智能照明系统. 激光与光电子学进展, 54(1), 012301(2017).(期刊优秀论文奖)

[32] 陈恩果, 黄佳敏, 周雄图, 林志贤. “立式阶梯” 实践培养模型课程体系设置及验证. 高等工程教育研究, (4), 99-103(2017).

[31] 汪江胜, 叶芸, 徐胜, 康冬茹, 林志贤, 陈恩果,郭太良, 杨兰. 量子点网点导光板的制备及性能研究. 发光学报, (2017 年 01), 91-96.

【2016】

[30] Enguo Chen, Jiamin Huang, Tailiang Guo, and Rengmao Wu. "A laser beam shaper for homogeneous rectangular illumination based on freeform micro lens array." Optoelectronics Letters,12(4), 253-256(2016).

[29] 黄佳敏, 陈恩果*, 郭太良. 量子点背光源颜色特性的理论研究与验证. 2016中国平板显示学术会议优秀论文 (2016).

[28] 徐胜, 徐玉珍, 陈恩果, 郭太良. 背光源导光结构仿真模型及其光学特性研究. 光电工程, 43(9), 78-83 (2016).

[27] 黄碧云, 林志贤, 陈恩果, 徐胜. 侧入式 LED 背光模组中光耦合模块的设计与实现. 光学学报, 36(2), 0222003(2016).

[26] 徐胜, 徐玉珍, 陈恩果, 郭太良. 基于量子点网点微结构的背光源技术研究. 海南大学学报 (自然科学版), (2016 年 03), 209-214(2016).

[25] 甄艳坤, 李娟妮, 杨阿平, 卢胜男, 陈恩果. HTGA 算法在 LED 均匀照明优化设计的应用. 电光与控制, 23(12), 97-100 (2016).

【2015】

[24] Enguo Chen, Rengmao Wu. "Design of freeform reflector array for oblique illumination in general lighting." Optical Engineering 54(6):065103 (2015).

[23] 陈恩果, 黄炳乐, 徐胜, 郭太良. 侧入式导光板的激光微加工技术的验证研究. 光子学报, 44(11), 1122002-1122002 (2015).

[22] 黄炳乐, 郭太良, 陈恩果, 徐胜. 导光板网点平均密度范围的最优化研究. 光学学报, 35(5), 0522002 (2015).

[21] 徐胜, 徐玉珍, 陈恩果, 郭太良. 大功率 LED 伏安特性模型研究. 光电子· 激光, 26(11), 2076-2082 (2015).

【2014】

[20] Enguo Chen, Feihong Yu, Tailiang Guo. "Design of off-axis arranged light-emitting diodes and dual dichroic mirrors based color mixing system for micro-projection display." Applied Optics 53(6):1151-1158 (2014).

[19] Enguo Chen, Rengmao Wu, Tailiang Guo. "Design a freeform microlens array module for any arbitrary-shape collimated beam shaping and color mixing." Optics Communications 321:78-85(2014).

[18] Enguo Chen, Tailiang Guo. "Modified K?hler illumination for LED-based projection display." Displays 35(2):84-89 (2014).

[17] Enguo Chen, and Tailiang Guo. "Efficient and compact reflective-type encapsulation module for high-power light-emitting diode." Optik-International Journal for Light and Electron Optics, 125(18), 5383-5386 (2014).

[16] Enguo Chen and Tailiang Guo. "Autostereoscopic 3D flat panel display using an LCD-pixel-associated parallax barrier." Optoelectronics Letters, 10(3), 191-193 (2014).

[15] 陈恩果, 郭太良. 空间能量分区映射的 LED 照明透镜设计. 光电工程, 41(10), 27-31 (2014).

[14] Enguo Chen and Rengmao Wu. "Optimization design of integrated reflective optics for white lightemitting diodes." Proc. of SPIE Vol. 9233, 92331O (2014).

[13] Enguo Chen, Zhixian Lin, Jintang Lin, Tailiang Guo. Freeform micro optics for compound collimated beam shaping. In Optical Fabrication and Testing (pp. JTu5A-21). Optical Society of America(2014, June).

[12] Enguo Chen, Jintang Lin, Zhixian Lin, Tailiang Guo. Design and demonstration of an integrated light-guide plate for LED backlights. In International Optical Design Conference (pp. JTu5A-31). Optical Society of America (2014, June).

【2013】

[11] Enguo Chen and Feihong Yu. "Design of LED-based reflector-array module for specific illuminance distribution." Optics Communications 289:19-27(2013).

[10] Enguo Chen, Peng Liu, and Feihong Yu. "Optimization design of single freeform lens based illumination system for CF-LCoS handheld pico-projectors." Optik-International Journal for Light and Electron Optics, 124(14), 1912-1916 (2013).

[9] 周雄图,陈恩果,姚剑敏,徐胜,曾祥耀,林金堂,张永爱,郭太良. 用于集成成像的针孔/微透镜组合阵列设计与仿真. 液晶与显示, 28(6), 855-859 (2013).

【2012】

[8]  Yishen Qiu, Enguo Chen, Gaoming Li, and Hui Li. Investigation of transient two-photon excited fluorescence in biological tissue, Chinese Optics Letters 10(5), 051901(2012).

[7]  Enguo Chen, Peng Liu, and Feihong Yu. "Synchronized parameter optimization of the double freeform lenses illumination system used for the CF-LCoS pico-projectors." Optics and Laser Technology 44.7: 2080-2087(2012).

[6] Enguo Chen, Peng Liu, and Feihong Yu. "Optical design of single plano-convex freeform lens-based illumination system for color filter liquid crystal on silicon pico projectors." Optical Engineering, 51(3):033002, (2012).

[5] Enguo Chen and Feihong Yu, "Design of an elliptic spot illumination system in LED-based color filter–liquid-crystal-on-silicon pico projectors for mobile embedded projection," Applied Optics 51, 3162-3170 (2012).

[4] Enguo Chen, Zhenfeng Zhuang, Jin Cai, Yan Liu, Feihong Yu. "Segment and spline synthesis optimization method for LED based freeform total-internal-reflection lens design." Proc. of SPIE 8420, 84200T (2012).

[3] Zhenfeng Zhuang, Enguo Chen, Bixiang Qu, and Feihong Yu. "Optical characterization for off-axis illumination in DLP system", Proc. SPIE 8419, 84191L (2012).

[2] Jin Cai, Enguo Chen, Peng Liu, and Feihong Yu. "Design of high-resolution digital microscope eyepiece based on FPGA", Proc. SPIE 8419, 84190V (2012).

[1] Yan Liu, Peng Liu, Zhefeng Zhuang, Enguo Chen, and Feihong Yu "A color image processing pipeline for digital microscope", Proc. SPIE 8419, 84191N (2012).

  附录2:标准及发明专利    

制定团体标准2件:

[1] Micro LED 光学特性测试方法

[2] 液晶显示背光模组用量子点扩散板

授权发明专利(第一发明人):

[2024]微投影显示与摄像光学模组一体化的层叠式光学引擎结构 ZL202211161262.7

[2024]一种层叠可调发光区域的大面积光源结构 ZL202111059657.1

[2024]一种色转换层的像素隔离矩阵结构及方法 2021103980942

[2024]自发光显示与图像传感器共层混合排列的一体化光学结构 ZL202211155009.0

[2024]改善微小型LED背光或显示均匀性的色转换层及其制备方法 ZL202110492736.5

[2023]一种层叠可调发光区域的大面积光源结构 ZL2021110596571

[2023]一种色转换层的像素隔离矩阵结构及方法 ZL2021103980942

[2023]一种可滑动调光的光机结构 ZL202111117684X

[2023]一种可滑动调光的光机结构 ZL202111117684X

[2023]含有环形导光圈的背光模组 ZL202210850788X

[2023]集转移、检测和修补于一体的Micro LED的巨量转移装置及方法 ZL202110747949.8

[2023]一种实现Micro-LED彩色化投影的光学引擎 ZL202210837911.4

[2023]Mini-LED光源内嵌式背光模组ZL202210856865.2

[2023]基于全内反射自由曲面的Mini-LED背光模组ZL202210851900.1

[2023]适用于近眼显示设备的高效率NanoLED结构及其制作方法 ZL202111618293.6

[2023]基于发光颜色判读的湿度探测器及其制备方法 ZL202111059987.0

[2022] 基于激光白光的一体式汽车远光灯 ZL202110760154.0

[2022] 显示像素的平整化保护封装结构及制作方法 ZL202110433126.8

[2022] 一种提升显示效率的吸光矩阵结构及其制备方法 ZL202110455393.5

[2022] 一种侧入式量子点背光模组结构 ZL202011271025.7

[2022] 一种量子点背光模组结构 ZL202011271036.5

[2022] 一种基于量子点色彩转换的白平衡实现方法 ZL202011150117.X

[2021] 一种量子点浓度渐变的导光板成型装置及成型方法 ZLN201811440307.8

[2021] 一种量子点彩膜背光结构 ZL201810664882.X

[2021]一种指针式仪表的准确读数识别系统及方法 ZL201811406269.4

[2020] 一种聚合物阵列多组件集成的高密度像素显示及背光模块CN108919559B

[2020]一种用于直下式背光源的封装结构及其制作方法CN108020958B

[2020] 基于双面调光导光板的背光照明结构及其制作方法CN108845454A

[2020] 偏振分光复用薄膜制作方法及应用其的复用型背光源CN201810658087.X

[2020] 实现出射光全偏振的高密度像素阵列装置及其制作方法CN201810657122.6

[2019] 一种复合抛物反射微准直透镜的偏振复用导光结构及其实现方法CN105676340B

[2019] 一种用于液晶显示导光板的网点分布设计方法CN201810692366.8

[2019] 一种量子点导光板及其制作方法 - 201810657386.1;108873147B

[2019] 一种侧入式导光板底面网点分布设计方法 - 201810692443.X;108828708B

[2019] 一种用于实现偏振准直面光源的导光结构 105511012B,CN201610103109.7

[2018] 侧入式导光板的光耦合模块及使用该模块的背光模组CN201510196272.8

[2018] 一种实现白平衡量子点光源光谱的构建方法 CN201610812271.6

[2018] 一种用于数字家庭无线信号全扩展的智能吸顶灯(实用新型)CN208300088U

[2017] 一种基于量子点导光板的背光模组 CN201410285691.4

[2015] 一种用于切换2D/3D显示模式的狭缝光栅阵列组件 CN201310228154.1

 附录3:科研项目    

2024.10-2026.09(主持)福州市揭榜挂帅重大项目“小型化星光级超广角抗杂光光学系统关键技术的研发与应用”(2024-ZD-002)

2024,第五批福建省“雏鹰计划”青年拔尖人才

2024.11-2027.10(主持)福建省杰出青年基金“Micro-LED视网膜投影近眼显示”(2024J010046

2022.11-2025.10(主持)国家重点研发计划“Micro-LED光提取与光整形微纳结构设计及其精密加工”(2022YFB3603503)

2022-2025(主持)国家自然科学基金(面上项目)“量子点色转换μLED的光色调控及其在超微型投影显示光学引擎中的应用基础研究”(62175032)

2024.01-2026.12(主持)华中科技大学武汉光电国家研究中心开放基金新型近眼显示光学系统”(2023WNLOKF011)

2024.01-2025.12(主持)闽都创新实验室(中国福建光电信息科学与技术创新实验室)2024年第一批产学研融合发展专项面向近眼显示的超微型Micro-LED投影显示关键技术开发及产业化”(2024CXY106

2023.01.01-2024.03.31(主持)福建省区域发展项目“基于衍射光波导的AR眼镜光学模组关键技术的研发及应用”(2023H4004

2022.12-2023.12(主持)福建省技术创新重点攻关及产业化项目“基于机器视觉与3D结构光智能调控的三色激光投影仪的研制”(2023G007)

2021-2023(主持)漳州市科技重大专项“揭榜挂帅”试点项目“基于高速扫描振镜的高性能投影关键技术研发及产业化”(202110051

2021-2024(主持)福建省自然科学基金面上项目“基于多基色量子点色转换的μLED彩色化技术研究”(2021J01579)

2020-2021(主持)海信视像科技股份有限公司“印刷式新型OLED显示器件关键技术(第二期)

2020.09-2022.08(主持)中国福建光电信息科学与技术创新实验室(闽都创新实验室)自主部署科研项目Mini-LED芯片、背光模组和显示集成关键技术开发与产业化”(with 闽都创新实验室,子课题负责人)

2020.10-2021.11(主持)福州市科技重大项目“高精度多点变焦超高清4K镜头研制及产业化”(with 闽都创新实验室)(后补助)

2020.08-2022.08(主持)福建省区域发展项目“基于人工智能技术的大尺寸平板电脑关键技术开发及产业化(后补助)

2018.04-2020.03(主持)福建省高校产学合作重点项目“柔性量子点背光模组及其薄型化液晶平板显示终端的研发及产业化”

2016.05-2018.04(主持)福建省产业技术联合创新项目“实现智能交互和3D虚拟现实墙的数字家庭无线网络应用终端的研发及产业化”

2015.01-2017.12(主持)国家自然科学基金“硅基液晶立体投影光学引擎的设计理论及优化机理研究”

2015.04-2018.03(主持)福建省区域科技重大项目“基于LTE技术的移动智能信息终端的关键技术开发及产业化”

2017.01-2018.12(主持)福州大学教材建设重点项目“计算机辅助光学设计——CodeV应用手册”

附录4:获奖    

2024年,第十六届福建省自然科学优秀学术论文奖

2024年,2023-2024学年教学优秀奖

2024年,福州大学2024年教师教学创新大赛二等奖

2024年,福州大学杰出青年教师励志奖

2024年,福州大学五四青年奖章先进个人

2024年,福州大学优秀硕士学位论文(江昊男)

2024年,福州大学教学优秀三等奖

2024年,SID ICDT2024 Distinguished Student Paper Award(蔡俊虎)

2023年,第十八届“挑战杯”全国大学生课外学术科技作品竞赛主赛道特等奖指导教师(基于超高分辨率显示的高效新型黑矩阵研究/张翔团队/福州大学首次特等奖)

2023年,《发光学报》2023年度优秀论文奖(蔡俊虎)

2023年,福州大学优秀硕士学位论文指导教师(蔡俊虎、王晨辉)

2023年,福州大学优秀本科毕业论文(设计)指导教师(19光电张翔)

2023年,福建省大学生“挑战杯”信息技术与物理组特等奖指导教师(19光电张翔团队)

2023年,“日内瓦国际发明展”金奖(5/5)

2023年,SID ICDT2023 Distinguished Paper Award(夏天文)

2022年,SID China突出贡献奖

2022年,福建省科技进步二等奖“广色域量子点背光关键技术开发及产业化”(6/10)

2022年,ICDT华为新型显示技术竞赛二等奖2项、三等奖1项(指导教师)

2022年,“歌尔杯”VRAR高校挑战赛二等奖(指导教师)

2021年,第八届两岸三地研究生显示技术研讨会最佳论文奖(刘永桢)

2020年,全国光电信息类教师授课比赛,三等奖

2020年,福州大学“福能奖教金”

2020年,SID ICDT2023 Distinguished Paper Award(郭举)

2020年,SID China Young Leader Conference Certificate

2019年,福州大学优秀硕士学位论文指导教师(18级集成电路工程蔡静)

2019年,福建省科技进步一等奖“超高分辨率液晶显示关键技术开发及产业化”6/10

2019年,福州大学教学优秀奖三等奖

2018年,两岸三地研究生显示技术研讨会Best poster award(14光电柳钟旭)

2018年,第五届福建省大学生光电设计竞赛优秀指导教师

2018年,福州大学优秀本科毕业论文(设计)指导教师(14光电吕成林)

2017年,《激光与光电子学进展》优秀论文奖

2017年,福州大学工会积极分子

2017年,第十八届福州大学青年教师最佳一节课二等奖

2016年,中国平板显示学术会议优秀论文奖(黄佳敏)

2016年,福州大学物信学院最佳一节课一等奖

2015年,福州大学优秀本科毕业论文(设计)指导教师(黄佳敏)