所属部门:光电信息科学研究所、物理学院
职称:教授、硕士生导师、博士生导师
学历:博士
招生专业:070207|光学(1~3人);0854|电子信息(2~3人)
电子邮件:junqiaowang@126.com;欢迎提前联系报考硕士研究生!同时欢迎本科生联系!
研究方向:
(1)纳米光子学,表面等离子光子学;(plasmonics)
(2)电磁超构材料(metamaterials);
(3)金刚石材料制备和调控,工业级金刚石及宝石级金刚石合成;
个人简介
(1)2001年9月~2005年7月在河南大学物理与信息光电子学院进行本科学习,专业为物理学;
(2)2005年9月~2010年12月在南开大学物理科学学院、泰达应用物理学院弱光非线性光子学教育部重点实验室攻读博士学位,专业为光学。
(3)2011年1月~2013年6月在郑州大学物理工程学院物理学博士后流动站工作,主要从事新型电磁材料的光学特性的研究、纳米光子学与光谱技术研究。
(4)2013年7月~至今,郑州大学物理学院。在Optics Express , Journal of optics等SCI期刊上发表论文80余篇。
毕业生留念:
张 佳2018届 北京拓普光研科技发展有限公司
高念2018届 登封外国语高级中学
袁栋栋2019届 汝阳第一高级中学
吴亚南2020届 南阳利达光电科技有限公司
任梦珂2020届 郑州市第64中学
李冉 2020届 郑州市航空港区招教
孙帅2021届 周口实验高中
毛雨2021届 西北大学 读博
人生、科研、价值观:
(1)要求学生有健康的心理和健康的体魄,这是研究生(甚至人生)第一位的事情;
(2)尝试培养自己的个人爱好和能力,因为有了自己的爱好才会让人生不再枯燥,有了能力才能去照顾自己和家人;
(3)时间是自由的又是珍贵的,利用好自己的三年研究生时间做好自己的手头工作;(课题组时间完全自由)
(4)推荐大家能往上继续读就继续读,去更好的学校和平台,走的更远。研究生期间可以去联合培养,可以去考博!
科研项目
(1)主持:河南省自然科学基金(142300410365;2015.01-2015.12)
(2)主持:国家自然科学基金(11504333;2016.01-2018.12)
(3)主持:郑州大学优秀青年教师发展基金(2016.1-2018.12)
(4)主持:国家自然科学基金面上项目(12174351,2022.1-2025.12),"基于双曲超材料的金刚石随机激光器”
撰写论文、专著、教材等
1.Shuo Tian, Junqiao Wang, Shuai Sun, Mengyue He, Yu Mao and Pei Ding,The anapole state excited by an oblique incidence,2023,DOI:10.1088/1402-4896/ace481.
2.Shuo Tian, Junqiao Wang, Shuai Sun, Mengyue He, Yu Mao, Ya Gao, Pei Ding, Strong field enhancement and hot spot manipulation based on anapole state in Si disk-ring metasurface, Results in Physics 49, 106485(2023)
3.Mingli Wan , Xiaopeng Zhang , Shuqing Yuan , Junqiao Wang , Jinna He,Generating elliptic perfect optical vortex beams with efficient dielectric metasurface in the ultraviolet spectrum,Optics Communications 531, 129224(2023)
4.Chu, Bo; Zhong, Facheng; Hu, Taozheng; Li, Yan; Yan, Rujiang; Shao, Li; Zeng, Fanguang; Ding, Pei; Du, Yinxiao; Gu, Ping; Wang, Junqiao; Chen, Zhuo, Blue-light-blocking films enabled by optimal absorption in plasmonic nanoparticles, PHYSICA SCRIPTA 98 1 015517 2023 10.1088/1402-4896/acaccf
5.He, Jinna; Wan, Mingli; Zhang, Xiaopeng; Yuan, Shuqing; Zhang, Liufang; Wang, Junqiao, Generating ultraviolet perfect vortex beams using a high-efficiency broadband dielectric metasurface, OPTICS EXPRESS 30 4 4806-4816 2022 10.1364/OE.451218
6.Li, Ran; He, Mengyue; Wang, Junqiao; Zhao, Wenhan; Sun, Shuai; Mao, Yu; Tian, Shuo; Fan, Chunzhen , Ultranarrow perfect absorber with linewidth down to 1 nm based on optical anapole mode, RESULTS IN PHYSICS 37 105484 2022 10.1016/j.rinp.2022.105484
7.Zhao, Wenhan; Wang, Junqiao; Li, Ran; Zhang, Bin, Ultranarrow dual-band metamaterial perfect absorber and its sensing application, JOURNAL OF OPTICS 24 035103 2022 10.1088/2040-8986/ac4aba
8.Mao, Miao; Wang, Junqiao; Mu, Kaijun; Fan, Chunzhen; Jia, Yuanlin; Li, Ran; Chen, Shu; Liang, Erjun, Realizing PIT-like transparency via the coupling of plasmonic dipole and ENZ modes, OPTICS EXPRESS 30 6 8474-8481 2022 10.1364/OE.450423
9.Mao, Yu; Wang, Junqiao; Sun, Shuai; He, Mengyue; Tian, Shuo; Liang, Erjun, Plasmon mode manipulation based on multi-layer hyperbolic metamaterials, OPTICS EXPRESS 30 13 22353-22363 2022 10.1364/OE.457014
10.Multilayer graphene-based radiation modulator for adaptive infrared camouflage with thermal management Ding, Pei; Wang, Pei; Su, Jinchao; Mao, Bo; Ren, Mengshuai; Xu, Kun; Tian, Shuo; Li, Yan; Tian, Ximin; Wang, Junqiao JOURNAL OF PHYSICS D-APPLIED PHYSICS 55 34 345103 2022 10.1088/1361-6463/ac7484
11.Li, Ran; Wang, Junqiao; Ren, Mengke; Zhao, Wenhan; He, Mengyue; Sun, Shuai; Mao, Yu; Tian, Shuo; Li, Yan; Ding, Pei Resonantly enhanced absorption in bifurcation plasmonic nanostructure for refractive index sensing OPTICS COMMUNICATIONS 512 128040 2022 10.1016/j.optcom.2022.128040
12.He, Mengyue; Wang, Junqiao; Sun, Shuai; Mao, Yu; Li, Ran; Tian, Shuo; ul Taqi, M. Munib ul Hassan Noor; Liang, Erjun, Improved strong field enhancement and ultranarrow perfect absorption based on anapole mode in slotted Si nanodisk metamaterial, RESULTS IN PHYSICS 40 105809 2022 10.1016/j.rinp.2022.105809
13.Wan, Mingli; Zhang, Xiaopeng; Yuan, Shuqing; Wang, Junqiao; He, Jinna, Generating elliptic perfect optical vortex beams with efficient dielectric metasurface in the ultraviolet spectrum, OPTICS COMMUNICATIONS 531 129224 2022 10.1016/j.optcom.2022.129224
14.Zhang, Houjiao; Liu, Ye; Liu, Zhengqi; Liu, Xiaoshan; Liu, Guiqiang; Fu, Guolan; Wang, Junqiao; Shen, Yun, Multi-functional polarization conversion manipulation via graphene-based metasurface reflectors OPTICS EXPRESS 29 1 70-81 2021 10.1364/OE.412925
15.Yao, Yu; Liao, Zhefu; Liu, Zhengqi; Liu, Xiaoshan; Zhou, Jin; Liu, Guiqiang; Yi, Zao; Wang, Junqiao, Recent progresses on metamaterials for optical absorption and sensing: a review, JOURNAL OF PHYSICS D-APPLIED PHYSICS 54 11 113002 2021 10.1088/1361-6463/abccf0
16.Jia Yuanlin; Yin, Huaiyuan; Yao, Huawei; Wang, Junqiao; Fan, Chunzhen, Realization of multi-band perfect absorber in graphene based metal-insulator-metal metamaterials , RESULTS IN PHYSICS 25 104301 2021 10.1016/j.rinp.2021.104301
17.Zhou, Jin; Liu, Xiaoshan; Zhang, Houjiao; Liu, Mulin; Yi, Qing; Liu, Zhengqi; Wang, Junqiao, Cross-Shaped Titanium Resonators Based Metasurface for Ultra-Broadband Solar Absorption, IEEE PHOTONICS JOURNAL 13 1 1-8 2021 10.1109/JPHOT.2021.3052990
18.Jia, Yuanlin; Wang, Xiaoxia; Yin, Huaiyuan; Yao, Huawei; Wang, Junqiao; Fan, Chunzhen, Highly unable thermal emitter with vanadium dioxide metamaterials for radiative cooling APPLIED OPTICS 60 19 5699-5706 2021 10.1364/AO.421977
19.Yao, Huawei; Wang, Xiaoxia; Yin, Huaiyuan; Jia, Yuanlin; Gao, Yong; Wang, Junqiao; Fan, Chunzhen, Efficient realization of daytime radiative cooling with hollow zigzag SiO2 metamaterials, CHINESE PHYSICS B 30 6 064214 2021 10.1088/1674-1056/abd697
20.Yin, Huaiyuan; Yao, Huawei; Jia, Yuanlin; Wang, Junqiao; Fan, Chunzhen, Realization of efficient radiative cooling in thermal emitter with inorganic metamaterials, JOURNAL OF PHYSICS D-APPLIED PHYSICS 54 34 345501 2021 10.1088/1361-6463/ac0659
21.Fan, Chunzhen; Ren, Peiwen; Jia, Yuanlin; Zhu, Shuangmei; Wang, Junqiao, Highly tunable plasmon-induced transparency with Dirac semimetal metamaterials, CHINESE PHYSICS B 30 9 096103 2021 10.1088/1674-1056/abf4bf
22.Zhang, Houjiao; Liu, Zhengqi; Liu, Guiqiang; Zhan, Xuefeng; Fu, Guolan; Liu, Xiaoshan; Wang, Junqiao, DVD assisted titanium metasurface for solar energy perfect absorption and potential applications for local thermal antibacterial treatment, JOURNAL OF PHYSICS D-APPLIED PHYSICS 54 11 115106 2021 10.1088/1361-6463/abceef
23.Ran Li,Junqiao Wang*, Mengke Ren, Chunzhen Fan, Pei Ding, Yan Li and Jinna He, Improved dual-band refractive index sensing based on gap plasmon, Photonics and Nanostructures - Fundamentals and Applications, 47 10095 (2021).
24.Mengke Ren, Ran Li,Junqiao Wang*, Chunzhen Fan, Pei Ding, Yan Li and Jinna He, Tuning the optical response of a plasmonic T-shaped dimer with nanowire loads for improved SERS and sensing applications,J. Phys. D: Appl. Phys. 54 084001 (2021)
25.Yanan Wu,Junqiao Wang*, Mengke Ren, Wenhan Zhao, Ran Li, Chun Zhen Fan, Erjun Liang, Yan Li, Pei Ding and Jinna He, Double-wavelength nanolaser based on strong coupling of localized and propagating surface plasmon,J. Phys. D: Appl. Phys. 53 135108 (2020)
26.J. Q. Wang*, Y. N. Wu, C. Z. Fan, E. J. Liang, Y. Li, and P. Ding, “Unmodified hot spot in hybridized nanorod dimer for extended surface-enhanced Raman scattering,”J. Phys. Chem. Solids 136, 109125 (2020)
27.Peng Tang, Guiqiang Liu, Xiaoshan Liu, Guolan Fu, Zhengqi Liu, andJunqiao Wang, "Plasmonic wavy surface for ultrathin semiconductor black absorbers,"Opt. Express 28, 27764-27773 (2020)
28.C. Lv, P. Ding, X. M. Tian, Y. Li, L. Shao, F. G. Zeng andJ. Q. Wang,“Broadband and wide-angle terahertz carpet cloaks based on pattered graphene metasurfaces,”J. Phys. D: Appl. Phys. 53 155107 (2020)
29.Z. Q. Liu, H. Z. Zhong, G. Q. Liu, X. S. Liu, Y. Wang, andJ. Q. Wang, "Multi-resonant refractory prismoid for full-spectrum solar energy perfect absorbers,"Opt. Express 28, 31763-31774 (2020)
30.C. Meng, F. F. Lu. W. D. Zhang,J. Q. Wang,D. Mao, F. Gao, T. Mei., "Selective Remote-Excitation of Gap Mode in Metallic Nanowire-Nanoparticle System Using Chiral Surface Plasmon Polaritons,"IEEE Journal of Quantum Electronics 56(6), 1-6 (2020)
31.G. Z. Du, G. L. Fu, P. P. Pan, X. S. Liu, Y. Yao,J. Q. Wang, X. F. Zhan and Z. Q. Liu, Refractory Ti/TiN resonators based meta-surface for perfect light absorption,J. Phys. D: Appl. Phys. 53, 485101 (2020)
32.W. D. Zhang, T. Y. Xue, F. F. Lu, L. Zhang, C. Meng,J. Q. Wang, and T. Mei, “Second-order surface optical nonlinear response of plasmonic tip axially excited via ultrafast vector beams,”Appl. Phys. Express 13, 032002 (2020)
33.J. K. Li, X. F. Chen, Z. Yi, H. Yang, Y. J. Tang, Y. Yi, W. T. Yao,J. Q. Wang, Y. G. Yi, “Broadband solar energy absorber based on monolayer molybdenum disulfide using tungsten elliptical arrays,”Materials Today Energy 117, 113840 (2020)
34.D. D. Yuan, S. Chen, Y. N. Wu,J. Q. Wang*, “A facile surface enhanced Raman scattering substrate based on silver deposited sandpaper,”Mod. Phys. Lett. B 33(21), 1950239 (2019)
35.L. Wang, M. L. Bie, W. Cai, L. X. Ge, Z. C. Ji, Y. L. Jia, K. Gong, X. Z. Zhang,J. Q. Wang,and J. J. Xu, "Giant near-field radiative heat transfer between ultrathin metallic films,"Opt. Express 27(25), 36790-36798 (2019)
36.J. Zhang, S. Chen,J. Q. Wang*, K. J. Mu, C. Z. Fan, E. J. Liang, and P. Ding, “An engineered CARS substrate with giant field enhancement in crisscross dimer nanostructure,”Sci. Rep. 8(1), 740 (2018)
37.H. Y. Xin, C. Z. Fan,J. Q. Wang*, E. J. Liang, and S. M. Zhu, “Synthesis of indium–silver bimetallic nanocomposites for surface-enhanced Raman scattering,” Opt. Rev. 25(6), 678-683 (2018)
38.Gao Nian,Wang Junqiao*, Zhang Jia, Chen Shu, Liang Erjun, Pan Zhifeng*, "Large field enhancement and perfect absorption by coupling between dark plasmon mode and surface plasmon polaritons," Journal of Optics 47(3), 301-306 (2018) Cover Article
39.P. Ding, Y. Li, L. Shao, X. M. Tian,J. Q. Wang,and C. Z. Fan, “Graphene aperture-based metalens for dynamic focusing of terahertz waves,”Opt. Express, 26(21), 28038-28050 (2018)
40.D. D. Yuan,J. Q. Wang*, Y. Li, and P. Ding, “A multi-wavelength SPASER based on plasmonic tetramer cavity,”J. Opt. 21(11), 115001 (2019).
41.H. Y. Xin, C. Z. Fan,J. Q. Wang*, E. J. Liang, and S. M. Zhu, “Synthesis of indium–silver bimetallic nanocomposites for surface-enhanced Raman scattering,”Opt. Rev. 25(6), 678-683 (2018)
42.Pei Ding, YanLi, MingyuLi, LiShao,Junqiao Wang, ChunzhenFan, FanguangZeng, Tunable dualband light trapping and localization in coupled graphene grating-sheet system at mid-infrared wavelengths.Optics Communications, 407: 410-416.(2018).
43.Junqiao Wang*, Jia Zhang, Yongzhi Tian, Chunzhen Fan, Kaijun Mu, Shu Chen, Pei Ding, Erjun Liang, Theoretical investigation of a multi-resonance plasmonic substrate for enhanced coherent anti-Stokes Raman scattering, Optics Express, 25(1): 497-507 (2017).
44.Junqiao Wang, Jia Zhang, Chunzhen Fan, Kiajun Mu, Erjun Liang, Pei Ding, Electromagnetic field manipulation in planar nanorod antennas metamaterial for slow light application,Optics Communications, 383: 36-41 (2017)
45.Junqiao Wang, Jia Zhang, Yongzhi Tian, Kaijun Mu, Chunzhen Fan, Shu Chen, Pei Ding, Fano resonances in nanorod dimers antenna, Modern Physics Letters B, 31(18): 1750202 (2017).
46.Wang Junqiao, Fan Chunzhen, He Jinna, Ding Pei, Liang Erjun(*), Xue Qianzhong, Double Fano resonances due to interplay of electric and magnetic plasmon modes in planar plasmonic structure with high sensing sensitivity, Optics Express, 2013, 21(2): 2236-2244.
47.Wang Junqiao, Fan Chunzhen, Ding Pei, He Jinna, Cheng Yongguang, Hu Weiqin, Cai Genwang, Liang Erjun(*), Xue Qianzhong, Tunable broad-band perfect absorber by exciting of multiple plasmon resonances at optical frequency, Optics Express, 2012, 20(14): 14871-14878.
48.Wang Junqiao(*), Yuan Baohe, Fan Chunzhen, He Jinna, Ding Pei, Xue Qianzhong, Liang Erjun, A novel planar metamaterial design for electromagnetically induced transparency and slow light, Optics Express, 2013, 21(21): 25159-25166.
49.Wang Junqiao(*), Liu Xiaomin, Li Lei, He Jinna, Fan Chunzhen, Tian Yongzhi, Ding Pei, Chen Dongxia, Xue Qianzhong, Liang Erjun(*), Huge electric field enhancement and highly sensitive sensing based on the Fano resonance effect in an asymmetric nanorod pair, Journal of Optics, 2013, 15(10): 105003.
50.Wang junqiao(*), Mu Kaijun, Ma Fengying, Zang Huaping, Fan Chunzhen, He Jinna, Liang Erjun, DingPei, Optical refractive nanosensor with planar resonators metamaterial, Optics Communications, 2015, 338: 399-405.
51.Zhou Wenjin, Wang Xiaoxia,Wang Junqiao(*), Polarization and angle quasi-independent metamaterial crystal with electromagnetically induced transparency based on plasmon hybridization, Journal of Modern Optics, 2015, 62(12): 1027-1031.
52.Jinna He,Junqiao Wang, Pei Ding, Chunzhen Fan and Erjun Liang, Gain-assisted plasmon induced transparency in T-shaped metamaterials for slow light,Journal of Optics, 2015,17(05):055002.
53.Fan Chunzhen(*), Wang Junqiao, Zhu Shuangmei, He Jinna, Liang Erjun, Optical properties in one-dimensional graded soft photonic crystals with ferrofluids, Journal of optics, 2013, 15(5).
54.Song Wenbo, Wang Junqiao, Li Zhiyuan, Liu Xiansheng, Yuan Baohe, Liang Erjun(*), Phase transition and thermal expansion property of Cr2-xZr0.5xMg0.5xMo3O12 solid solution, Chinese Physics B, 2014, 23(6): 066501.
55.Fan chunzhen, Wang Junqiao, He Jinna, Ding Pei and Liang Erjun, “Theoretical study on the photonic band gap in one-dimensional photonic crystals with graded multilayer structure,” Chinese Physics B, 2013, 22(7), 074211.
56.Fan Chunzhen(*), Wang Junqiao, Cheng Yongguang, Ding Pei, Liang Erjun, Huang Jiping, Electric field distribution around the chain of composite nanoparticles in ferrofluids, Chinese Physics B, 2013, 22(8): 084703.
57.Liu Xiansheng, Wang Junqiao, Liang Erjun(*), Zhang Weifeng, Enhancing mechanism of visible-light absorption for photovoltaic response and photoluminescence of Zn2SnO4 with high solubility of Bi3+, Applied Surface Science, 2013, 280: 556-563.
58.Liu Xiansheng, Wang Junqiao, Fan Chunzhen, Rui Shang, Fuxing Cheng, Baohe Yuan, Song Wenbo, Chen Yongguang, Liang Erjun, and Chao Mingju. “Control of Reaction Pathways for Rapid Synthesis of Negative Thermal Expansion Ceramic Zr2P2WO12 with Uniform Microstructure,” International Journal of Applied Ceramic Technology,2015, 12(S2): E28-E33.
59.He Jinna, Wang Junqiao, Ding Pei, Fan Chunzhen, Luk R. Arnaut, Liang Erjun(*), Optical Switching Based on Polarization Tunable Plasmon-InducedTransparency in Disk/Rod Hybrid Metasurfaces, Plasmonics, 2015, 10(5):1115-1121.
60.Ding Pei(*), Wang Junqiao, He Jinna, Fan Chunzhen, Cai Genwang, Liang Erjun, Interplay between out-of-plane magnetic plasmon and lattice resonance for modified resonance lineshape and near-field enhancement in double nanoparticles array, Chinese Physics B, 2013, 22(12): 127802. SCI期刊论文
61.Tan Xinhui, Wang Junqiao, Cai Wei, Meng Tao, Xiang Yinxiao, Li Wei, Zhang Xinzheng(*), Coherence preservation during light-surface plasmon polaritons-light transformation, Science China Physics, Mechanics and Astronomy, 2013, 56(9): 1679-1683.
62.Yuan Baohe, Zhou Wenjin, and Wang Junqiao(*), Novel H-shaped plasmon nanoresonators for efficient dual-band SERS and optical sensing applications, Journal of Optics, 2014, 16(10): 105013. SCI期刊论文
63.He Jinna, Ding Pei, Wang Junqiao, Fan Chunzhen, and Liang Erjun(*), Ultra-narrow band perfect absorbers based on plasmonic analog of electromagnetically induced absorption, Optics Express, 2015, 23(5): 6083-6091. SCI期刊论文
64.Zhu Shuangmei, Fan Chunzhen, Wang Junqiao, He Jinna, Liang Erjun(*), Chao Mingju, Realization of high sensitive SERS substrates with one-pot fabrication of Ag-Fe3O4 nanocomposites, Journal of Colloid and Interface Science, 2015, 438(1): 116-121.
65.Zhu Shuangmei, Fan Chunzhen, Wang Junqiao, He Jinna, Liang Erjun(*), Chao Mingju, Surface enhanced Raman scattering of 4-aminothiophenol sandwiched between Ag nanocubes and smooth Pt substrate: The effect of the thickness of Pt film, Journal of Applied Physics, 2014, 116(4).
66.Ding Pei(*), Cai Genwang, Wang Junqiao, He Jinna, Fan Chunzhen, Liu Xiaomin, Liang Erjun, Low-threshold resonance amplification of out-of-plane lattice plasmons in active plasmonic nanoparticle arrays, Journal of Optics, 2014, 16(6). SCI期刊论文
67.He Jinna, Fan Chunzhen, Wang Junqiao, Ding Pei, Cai Genwang, Cheng Yongguang, Zhu Shuangmei, Liang Erjun(*), A giant localized field enhancement and high sensitivity in an asymmetric ring by exhibiting Fano resonance, Journal of Optics, 2013, 15(2).
68.Zhu Shuangmei, Fan Chunzhen, Wang Junqiao, He Jinna, Liang Erjun(*), Chao Mingju, Surface-enhanced Raman scattering of 4-mercaptobenzoic acid and hemoglobin adsorbed on self-assembled Ag monolayer films with different shapes,, Applied Physics A, 2014, 117(3): 1075-1083. SCI期刊论文
69.Cai Genwang, Ding Pei, Wang Junqiao, Liang Erjun (*), Wide-band perfect optical absorption and photo-thermal effect for three-tier nanogate, Modern Physics Letters B, 2014, 28(16). SCI期刊论文
70.Zhu Shuangmei, Fan Chunzhen, Wang Junqiao, He Jinna, Liang Erjun(*), Self-assembled Ag nanoparticles for surface enhanced Raman scattering, Optical Review, 2013, 20(5): 361-366. SCI期刊论文
71.Ding Pei(*), He Jinna, Wang Junqiao, Fan Chunzhen, Cai Genwang, Liang Erjun, Low-threshold surface plasmon amplification from a gain-assisted core-shell nanoparticle with broken symmetry,Journal of Optics, 2013, 15(10). SCI期刊论文
72.Liu Xiansheng, Cheng Fuxing, Wang Junqiao, Song Wenbo, Yuan Baohe, and Liang Erjun, The control of thermal expansion and impedance of Al-Zr2 (WO4)(PO4) 2 nano-cermets for near-zero-strain Al alloy and fine electrical components[J]. Journal of alloys and compounds,2013, 553, 1-7. SCI期刊论文
73.Liu Xiansheng, Yuan Baohe, Wang Junqiao, Song Wenbo, Cheng Fuxing, and Liang Erjun, Synthesis, thermal expansion and optical properties of (1−x)NaAl(MoO4)2–xNaEr(MoO4)2 ceramics, Journal of Alloys and Compounds, 2013, 564, 63-70.
74.Zhang jie, Yuan Chao, Wang Junqiao, Liang Erjun, and Chao Mingju, Oxygen ion conductivity of La0. 8Sr0. 2Ga0. 83Mg0. 17− xCoxO3− δ synthesized by laser rapid solidification[J]. Chinese Physics B, 2013, 22(8): 087201. SCI期刊论文
75.He Jinna, Ding Pei, Wang Junqiao, Fan Chunzhen, and Liang Erjun(*),Double Fano-type resonances in heptamer-hole array transmission spectra with high refractive index sensing, Journal of Modern Optics, 2015, 62(15). SCI期刊论文
76.Ding Pei(*), He Jinna, Wang Junqiao, Fan Chunzhen, and Liang Erjun, Electromagnetically induced transparency in all-dielectric metamaterial-waveguide system, Applied Optics, 2015, 54(12):3708-3714. SCI期刊论文
77.Ding Pei, Li Mingyu, He Jinna, Wang Junqiao, Fan Chunzhen, and Zeng Fanguang, Guided mode caused by silicon nanopillar array for light emission enhancement in color-converting LED, Optics Express, 2015, 23(16): 21477-21489. SCI期刊论文
78.He Jinna, Fan Chunzhen, Wang Junqiao, Cheng Yongguang, Ding Pei, and Liang Erjun, Plasmonic nanostructure for enhanced light absorption in ultrathin silicon solar cells. Advances in OptoElectronics, 2012(2012), Article ID 592754. EI期刊论文
79.朱双美,范春珍,王俊俏,梁二军,自组装银纳米粒子及其SERS增强效应,光散射学报, 2012, (03): 240-244.
80.王玲,田勇志,王俊俏,臧华平,刘晓旻,赵楠楠,陈宝鑫,梁二军,基于图像特征改进的正交匹配追踪算法,郑州大学学报(理学版), 2015,47(2):73-77.
81.王俊俏,朱双美,何金娜,程永光,范春珍,蔡根旺,梁二军(*),基于Klarite芯片的表面增强拉曼散射特性研究,光散射学报, 2012, (01): 17-22.
82.刘晓旻,王俊俏,马凤英,吴宇,梁二军,杨国光,太赫兹辐射的多重反射光杠杆探测方法,红外与激光工程, 2012, (08): 2058-2062. EI期刊论文
83.范春珍,王俊俏,程永光,梁二军,铁磁壳层纳米颗粒周围局域电场的研究,郑州大学学报(工学版), 2013, 3: 008.中文核心期刊