国家自然科学基金面上项目（12374398 在研）

中国科学院大学优秀教师科研提升项目 （在研）

国家重点研发计划重点专项子课题（2022YFB3806003 在研）

北京市自然科学基金面上项目（4222081 在研）

国家自然科学基金面上项目（11574311 结题）

国家自然科学基金青年项目（51102148 结题）

北京市高校联合基金项目（结题）

北京市高校联合基金项目（结题）

国网北京市企业横向项目（结题）

中国科学院校长基金项目（结题）

山东省自然科学基金面上项目（结题）

（1） 中国科学院大学2022年《微纳光学》研究生优秀课程, , 研究所（学校）, 2022
（2） 中国科学院大学2021年《光学传感实验》研究生优秀课程, , 研究所（学校）, 2021
（3） 中国科学院朱李月华优秀教师奖, , 院级, 2020
（4） 中国科学院大学2020年《微纳光学》研究生优秀课程, , 研究所（学校）, 2020

[1] 秦玉涛, 董国艳. 基于多孔光子晶体LSPR增强荧光的方法. 2024104240008, 2024-05-10.
[2] 董国艳. 一种基于耦合Mie谐振的偏振态测量方法. 2023115275025, 2024-01-30.
[3] 董国艳, 王欢欢. 一种基于近场增强效应的微型介质传感器. CN114910106A, 2022-08-16.
[4] 董国艳, 王欢欢. 基于级联式准周期多层膜的超宽带全向高反射方法. CN: CN113848602B, 2023-08-11.
[5] 董国艳, 郑姝慧. 基于近零折射率阵列谐振的多模干涉耦合器. CN113281844A, 2021-08-20.
[6] 董国艳. 一种基于低折射率慢光共振的高定向光学天线. CN: CN113113779A, 2021-07-13.
[7] 董国艳, 乔鹏武. 位移大小与方向的高精度单光路测量方法及装置. CN: CN110988897A, 2020-04-10.
[8] 董国艳, 郑姝慧. 基于超材料谐振体的转弯光开关控制方法及光开关. CN: CN110727058B, 2020-07-24.
[9] 董国艳, 乔鹏武, 郑姝慧. 基于光子晶体场谐振模式的光开关控制方法及光开关. CN: CN110515154B, 2020-10-20.
[10] 董国艳, 李振飞. 一种基于透射式全介质超表面的偏振复用全息成像方法. CN: CN108803292B, 2020-12-25.
[11] 董国艳, 李振飞. 基于零折射率超材料的精密光学测距方法. CN: CN106842227B, 2019-04-16.
[12] 李捷, 董国艳, 张坤明, 邢钊. 供电状态监测系统. CN: CN205861793U, 2017-01-04.
[13] 董国艳. 利用狄拉克点差频效应实现多方位电磁波低频转换的方法. CN: CN104570546B, 2017-05-24.
[14] 董国艳. 基于光子晶体驻波谐振的分束方法. CN: CN104570206B, 2017-06-09.
[15] 董国艳. 基于光子晶体的自准直零相移传输方法. CN: CN103576237B, 2016-01-20.

【2024】

[1] Guoyan Dong*, Xiang Zhao, Yutao Qin, Ji Zhou*, Dielectric particle trimer: enhanced sensing of environmental changes through coupled Mie resonances, Advanced Composites and Hybrid Materials (2024) 7:31. 基于米氏耦合谐振的高灵敏传感器，下载地址

[2] Xiaofan Guo and Guoyan Dong*, "Experimental demonstration of photonic crystal resonator enabling wavefront shaping and beam steering", Proc. SPIE 13104, (18 March 2024); 波前整形和光束调制的光子晶体谐振实验验证，下载地址

[3] Wenjie Ma, Ruonan Miao, Huaxin Wu, Guoyan Dong*, Jiyang Fan*; Topological and compositional disorder induced exciton Anderson localization highly enhances luminescence quantum yields of alloyed perovskite nanocrystals. Appl. Phys. Rev. 11 (2): 021412. 下载地址

~【2023】

[2] Zhao, H., Xuan, T*., Bai, W., Dong, H., Dong, G.*, Xie, R. J.*, Fluorine Polymer-Modified Dion-Jacobson Perovskites Enabling Sky-Blue Perovskite Light-Emitting Diodes with an Efficiency of 16.55%. Laser & Photonics Reviews 2023, 17, 2300430. 下载地址

[3] Guoyan Dong*, Xiaofan Guo, and Qingshan Yang*, Spatial observation of highly directional radiation from a compact 3D photonic-crystal antenna in Ku band, Appl. Phys. Lett. 121, 252901 (2022); 光子晶体基定向分束辐射天线，下载地址

[4] Huanhuan Wang, Xiaofan Guo, Xiang Zhao, and Guoyan Dong*, Ultra-broadband polarization-independent omnidirectional reflectors via dielectric-reversal quasicrystal heterostructure multilayer films, Advanced Composites and Hybrid Materials, (2023) 6, 17. 准晶介质全向高反膜，下载地址

[5] Shuchen Shi, Wenhao Bai, Cunjian Lin, Tongtong Xuan*, Guoyan Dong*, Fan Huang, Rong-Jun Xie*, Uniformity and Stability of Quantum Dot Pixels Evaluated by Microscale Fluorescence Spectroscopy, Laser & Photonics Reviews, 16, 2100699 (2022). 下载地址

[6] Guoyan Dong*, Application of Two-dimensional Photonic-crystal Array for Optical Switches, PIERS Proceedings, 2022.4

[7] Guoyan Dong, Shuhui Zheng, Huanhuan Wang, Qian Zhao,and Ji Zhou， High-efficiency directional radiation via slow light resonance of modified photonic crystal array，Engineered Science，16, 187-193, 2021. 光子晶体慢光谐振实现高效定向辐射, 下载地址

[8] Shuhui Zheng, Guoyan Dong,*, Qingshan Yang,*, Huanhuan Wang1 and Ji Zhou，Ultra-compact photonic crystal couplers for optical switches based on band-edge resonance，Advanced Composites and Hybrid Materials，4, 1302–1308, 2021，基于带边谐振的光子晶体耦合光开关，下载地址

[9] H. Wang and G. Dong*, "Broadband High-reflective Omnidirectional Mixed-quasi-periodic Multilayer," 2021 Photonics & Electromagnetics Research Symposium (PIERS), Hangzhou, China, 2021, pp. 758-762, doi: 10.1109/PIERS53385.2021.9694715.

[10] Shuchen Shi, Wenhao Bai, Tongtong Xuan,* Tianliang Zhou, Guoyan Dong,* and Rong-Jun Xie*, In Situ Inkjet Printing Patterned Lead Halide Perovskite Quantum Dot Color Conversion Films by Using Cheap and Eco-Friendly Aqueous Inks, Small Methods 2021, 5, 2000889 SCI1

[11] H Yao, X Liu, H Zhu, H Li, G Dong*, K Bi*, Dual-band microstrip antenna based on polarization conversion metasurface structure, Frontiers in Physics 8: 279, 2020. SCI2

[12] Guoyan Dong*, PENGWU QIAO, SHUHUI ZHENG, Light redirection and splitting via meta-resonator based on photonic crystal with low effective index, IEEE Xplore, 2741-2745. Published: 05 March 2020. DOI: 10.1109/PIERS-Fall48861.2019.9021754. 

[13] PENGWU QIAO, Guoyan Dong*, Precise distance measurement via single-beam interferometry of photonic crystal, IEEE Xplore, 3303-3306. Published: 05 March 2020. DOI:10.1109/PIERS-Fall48861.2019.9021758

[14] Shuhui Zheng, Guoyan Dong*, 90° Bending Optical Switch Based on dielectric meta-resonator，IEEE Xplore, 3307-3310. Published: 05 March 2020. DOI:10.1109/PIERS-Fall48861.2019.9021650.

[15] Guoyan Dong*, Pengwu Qiao, Shuhui Zheng et al. Efficient light redirection via stretched field resonance in dielectric meta-resonator, Optics Express 27(22),32846-32854 (2019). SCI2

[16] Zhenfei Li, Guoyan Dong*, Dongyu Yang, Guilin Li, Yishi Shi*, Ke Bi* and Ji Zhou, “Efficient dielectric metasurface hologram for visual-cryptographic image hiding”, OPTICS EXPRESS 27, 19212 (2019) SCI2

[17] Qingmin Wang, Ke Bi*, Yanan Hao, Limin Guo, Guoyan Dong*, Hongya Wu, and Ming Lei*, "High-Sensitivity Dielectric Resonator-Based Waveguide Sensor for Crack Detection on Metallic Surfaces", IEEE SENSORS JOURNAL, 19(14), 5470 (2019). SCI2-Top

[18] 董国艳*, 乔鹏武, 李振飞,光子带隙超材料研究进展, 中国材料进展, 38(2), 22-29 (2019).

[19] Ke Bi, Xuying Wang, Yanan Hao, Ming Lei*, Guoyan Dong*, Ji Zhou*, Wideband slot-coupled dielectric resonator-based filter, Journal of Alloys and Compounds 785, 1264-1269 (2019). SCI1

[20] Z. F. Li, P. W. Qiao, G. Y. Dong*, Y. S. Shi, K. Bi, X. L. Yang and X. F. Meng, Polarization-multiplexed broadband hologram on all-dielectric metasurface, Europhysics Letters 124, 14003 (2018). SCI3

[21] Jiameng Zhang, Yanan Hao,*  Meihua Bi, Guoyan Dong*, Xiaoming Liu and Ke Bi*, Outstanding Photoluminescence in Pr3+-Doped Perovskite Ceramics, Micromachines 9, 419 (2018). SCI3

[22] Guoyan Dong*, "Design and application of photonic devices based on photonic crystal near Dirac point," Proc. SPIE 10823, Nanophotonics and Micro/Nano Optics, 108230R (25 October 2018); doi: 10.1117/12.2327082

[23] G. Y. Dong, Anomalous transmission properties modulated by photonic crystal bands, Chapter 2 of Theoretical Foundations and Application of Photonic Crystals[M]. InTech, ISBN: 978-953-51-3961-4 (2018).

[24] G. Y. Dong*, Z. F. Li, Ji Zhou, Pengwu Qiao, Xiulun Yang, and Xiangfeng Meng, Precise displacement measurement in single beam interferometry employing photonic metamaterial with effective zero-index. Optics express 25, 031509 (2017). SCI2

[25] Z. F. Li, G. Y. Dong*, X. L. Yang, X. F. Meng and K. Bi, Effective method to identify and verify the Dirac-like point through finite photonic crystals with triangular lattice, Europhysics Letters, 1181, 4003 (2017). SCI3

[26] Guoyan Dong*, Ji Zhou, Xiulun Yang & Xiangfeng Meng，Precise identification of Dirac-like point through a finite photonic crystal square matrix, Scientific Reports 6, 36712 (2016)

[27] 董国艳*, 传导系统中TE/TM偏振模态的辨析, 中国科学院大学学报,   33(3) 347-353 (2016).

[28] Guoyan Dong, Transmission properties of photonic crystal near Dirac point, 2016 PROGRESS IN ELECTROMAGNETICS RESEARCH SYMPOSIUM (PIERS)  406 (2016).

[29] Ke Bi, Wenjun Liu, Yunsheng Guo, Guoyan Dong* & Ming Lei，Magnetically tunable broadband transmission through a single small aperture，Scientific Reports, 5:12489 (2015)

[30] 董国艳*，毕科，周济, “具有零相移传输性质的超材料研究,” 中国科学: 物理学 力学 天文学，44(2), 1-11 (2014).

[31] G. Y. Dong, J. Zhou, “Zero phase delay induced by wavefront modulation in photonic crystals” Physical Review B 87, 125107 (2013). 

[32] Guoyan Dong, Ke Bi, Ji Zhou, et al. “Experimental demonstration in X-band of dual-negative refraction in photonic crystals,” Europhysics Letters 104, 34003 (2013).

[33] Guoyan Dong, Ke Bi, Ji Zhou, et al. “Zero phase delay with relax incident condition in photonic crystals,” Optics Express 21, 29860–29866 (2013).

[34] G. Y. Dong, J. Zhou, X. L. Yang and X. F. Meng, “Multi-refraction with same polarization state in two dimensional triangular photonic crystals,” Progress In Electromagnetics Research 128, 91 (2012). 

[35] G. Y. Dong*, X. L. Yang, L. Z. Cai , “Transmission Properties of an Air Waveguide with Left-handed Holographic Photonic Crystal Cladding” Chinese Physics Letter 28, 014210 (2011). 

[36]   G. Y. Dong*, J. Zhou, X. L. Yang, L. Z. Cai, “Dual negative refraction in photonic crystals with hexagonal lattices” Optics Express 19, 12119-12124 (2011).

[37]   G. Y. Dong*, X. L. Yang, L. Z. Cai, “Anomalous refractive effects in honeycomb lattice photonic crystals formed by holographic lithography” Optics Express 18, 16302 (2010). 

[38] G. Y. Dong, X. L. Yang, L. Z. Cai et al, “six-fold hybrid photonic crystal formed holographically with full band gap for low refractive index” Europhysics Letters 80 14006 (2008). 

[39]   G. Y. Dong, X. L. Yang, L. Z. Cai et al, “Improvement of transmission properties through two-bend resonance by holographic design for a two-dimemsional photonic crystal waveguide” Optics Express 16, 15375-15381 (2008). 

[40] G. Y. Dong, X. L. Yang, L. Z. Cai et al, “Band gap analysis and holographic design of 3-fold hybrid triangular photonic crystals of irregular columns with large full band gaps” J. Opt. A: Pure Appl. Opt. 9 531–536 (2007). 

[41] G. Y. Dong, X. L. Yang, L. Z. Cai et al, “Photonic band gap properties of 6-fold hybrid triangular photonic crystals formed by holographic lithography” J. Phys. D: Appl. Phys. 40 4761-4766  (2007). 

[42] 董国艳，蔡履中, 新型二维混合三角结构光子晶体的能带特性, 2007年信息与通信工程全国博士生学术论坛论文集, 1001-2400(2007)S1-0625-04, 2007.

[43] G. Y. Dong, L. Z. Cai, X. L. Yang, X. X. Shen, X. F. Meng, X. F. Xu and Y. R. Wang, “Analysis of structure and band gap evolution of photonic crystals formed holographically by symmetric umbrella configuration with varying apex angles,” Journal of Physics D: Applied Physics 39,3566-3570 (2006). 

[44] G. Y. Dong, L. Z. Cai, X. L. Yang, X. X. Shen, X. F. Meng, X. F. Xu and Y. R. Wang, ” Holographic design and band gap evolution of photonic crystals formed with five-beam symmetric umbrella configuration,” Optics Express 14, 8096-7102 (2006). 

[45] L. Z. Cai, G. Y. Dong, C. S. Feng, X. L. Yang, X. X. Shen and X. F. Meng, “Holographic design of a two-dimensional photonic crystal of square lattice with a large two-dimensional complete bandgap,” Journal of Optical Society of America B 23, 1708-1711 (2006). 

[46] G. Y. Dong, J. Zhou, “Modulation of Optical Transmission in Photonic Crystal” Key Engineering Materials 538, 42-45 (2013). 

[47] G. Y. Dong, J. Zhou, “Anomalous optical transmission phenomena in photonic crystals” Applied Mechanics and Materials 320, 128-132(2013). 

[48] Dong Guoyan, Yang Xiulun and Meng Xiangfeng, “A novel method to realize zero phase delay of electromagnetic wave” Advanced Materials Research 760-762, 315-319 (2013). 

[49] Dong Guoyan, Zhou Ji, “Anomalous Refractions Based on Photonic Band Modulation of Photonic Crystals” Advanced Materials Research  750-752, 881-884 (2013). 

[50] Dong Guoyan,  “Metamaterials with zero phase delay,” Advanced Materials Research 873, 465-470 (2014). 

[51] 董国艳、蔡履中，“五束伞状对称光制备三维光子晶体的全息设计及其能带演变的分析” 山东科技大学学报(自然科学版) 26, 200-202 (2007).

[52] 董国艳，二维三角全息光子晶体中弯曲波导的传输性质,第六届博士生学术年会信息技术与IT产业论坛论文集 7504649627 (2008)

[53] 沈晓霞, 董国艳, 任亚洲, 王新中,周志文, “利用复合技术提高光子晶体LED发光效率的研究”,中国激光:激光与光电子学进展,50,100006 (2013).

[54] Ke Bi, Guoyan Dong, Xiaojian Fu、Ji Zhou，Ferrite based metamaterials with thermo-tunable negativerefractive index ，Applied Physics Letters, 103, 131915 (2013) 

[55] BI Ke, DONG GuoYan, PAN DeAn、Zhou Ji，“Magnetoelectric cylindrical layered composite structure with multi-resonance frequencies,” SCIENCE CHINA: Technological Sciences, 56, 2572-2575 (2013).