欧阳秋云 - 哈尔滨工程大学 - 物理与光电工程学院

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欧阳秋云博士副教授博士生导师收藏完善纠错
哈尔滨工程大学物理与光电工程学院
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个人简介

欧阳秋云，女，博士，副教授，博士生导师，1976年9月生。2006年毕业于哈尔滨工业大学，获得理学博士学位。2006年到哈尔滨工程大学参加工作至今，2010年博士后出站。2015年1月-2016年1月，赴新加坡国立大学公派访问研究1年。长期从事非线性光学及光电器件应用方面的研究。主持和参与国家自然科学基金、黑龙江省杰出青年基金、黑龙江省自然科学基金等项目共计18项。发表论文60余篇，其中SCI论文50余篇，申请专利4项，授权1项，获得奖励5项，其中黑龙江省科学技术奖二等奖1项，黑龙江省高校科学技术奖二等奖1项。教育经历　　1997.9-2001.7，聊城大学，本科，获学士学位　　　2001.9-2006.7，哈尔滨工业大学，硕博连读，获博士学位工作经历　　2006.7-2010.12，哈尔滨工程大学，讲师　　2006.11-2010.10，哈尔滨工业大学，博士后　　2011.1-至今，哈尔滨工程大学，副教授　　2015.1-2016.1，新加坡国立大学，访问学者承担项目 1. 2019.7–2022.7，黑龙江省自然科学基金面上项目，JJ2019LH0837，基于二维硫族化合物纳米复合材料作为饱和吸收体的光纤激光器研究，10万元，在研，主持。 2. 2020.1–2020.12，中央高校基本科研业务费专项资金，3072020CF2520，碳化物激光防护材料的制备及性能研究，2万元，在研，主持。 3. 2019.1–2019.12，中央高校基本科研业务费专项资金，3072019CF2513，碳化钨/碳化钼纳米复合材料的制备及非线性光学特性研究，2万元，已结题，主持。 4. 2018.1–2018.12，中央高校基本科研业务费专项资金，HEUCF181121，硫化锡薄膜的制备及非线性光学特性研究，3万元，已结题，主持。 5. 2015.7–2018.7，黑龙江省自然科学基金面上项目，A2015015，二维层状过渡金属硫化物纳米薄膜的制备和光学非线性，6万元，已结题，主持。 6. 2013.1–2015.12，国家自然科学基金青年科学基金项目，61205113，石墨烯基纳米复合有机玻璃的可控制备及光学非线性，29万元，已结题，主持。 7. 2013.1–2013.12，中央高校基本科研业务费专项资金，硫化钼纳米薄膜的原位成膜法制备及光学非线性研究，7万元，已结题，主持。 8. 2012.10–2011.12，光电带隙材料省部共建教育部重点实验室开放课题，石墨烯氧化锌纳米复合有机玻璃的制备及光学非线性和光限幅特性，5万元，已结题，参加。 9. 2011.1–2013.12，国家自然科学基金面上项目，51072038，一维多孔Fe3O4/ZnO基复合纳米结构的设计，合成及多重电磁响应特性，37万元，已结题，参加。 10. 2011.1–2011.12，中央高校基本科研业务费专项资金，HEUCF20111127，基于氧化铁纳米复合薄膜的制备及弱光非线性研究，1万元，已结题，主持。 11. 2009.1–2011.12，国家自然科学基金面上项目，60878006，基于光速减慢的新形光谱形干涉技术研究， 33万元，已结题，参加。 12. 2006.7–2008.12，哈尔滨工程大学基础研究项目，HEUFT07057，静电自组装薄膜光学非线性的研究，10万元，已结题，主持。 13. 2007.1–2009.12，黑龙江省教育厅科学技术研究项目，11523019，新型非线性纳米超薄膜的慢光和超快光特性，5万元，已结题，主持。 14. 2005.1–2007.12，黑龙江省杰出青年基金项目，JC04-04，金属团簇化合物的光学非线性，20万元，已结题，参加。 15. 2007.1–2009.12，哈尔滨市创新人才专项基金项目，RC2006QN009025，可调谐液晶光子晶体滤波器的研究，2.7万元，已结题，参加。学术交流　　1.2008年1月，哈尔滨，参加国际会议一次。　　2.2008年5月，南京，参加国际会议一次。招生信息　　每年可招收博士生2-3名，硕士生2-3名　本科生授课课程　　1.2006-2010，《大学物理A》　　2.2010-2013，《大学物理C》　　3.2013-至今，《光电材料与器件》　　4.2013-至今，《光电检测技术》研究生授课课程　　2007-至今，《太阳能电池原理及应用》　实践性教学教学研究课题 1. 2020.1–2020.12，2020年度本科生品牌课程建设，《光电检测技术》，4万元，在研，主持。 2. 2019.6–2020.12，哈尔滨工程大学教改项目，科研案例融入教学，全面提升教学质量，0.5万元，在研，主持。 3. 2019.1–2021.12，国际共建课程，《非线性光学》，10万元，在研，参加。 4. 2014.1–2015.12，黑龙江省教育规划课题，前沿物理教学与文科物理课程改革，0.5万元，已结题，主持。 5. 2013.1–2013.12，哈尔滨工程大学教改项目子课题，教育国际化背景下大学物理课程教学模式的探索与实践，0.4万元，已结题，参加。 6. 2013.1–2013.12，哈尔滨工程大学教改项目子课题，模块化模式下大学物理分层次教学的研究与实践，0.4万元，已结题，参加。 7. 2012.1–2012.12，哈尔滨工程大学教改项目子课题，理工科院校《文科物理》课程教学改革与实践，0.4万元，已结题，主持。 8. 2011.1–2011.12，哈尔滨工程大学教改项目，《文科物理》多媒体课件建设，0.4万元，已结题，参加。专利成果 1. 2011年6月，陈玉金，马杨，朱春玲，王铁石，欧阳秋云，齐立红，吸收高频电磁波的石墨烯与四氧化三铁复合材料及制法，公开号：CN201110207639.3（申请）。 2. 2011年6月，陈玉金，马杨，王铁石，朱春玲，欧阳秋云，齐立红，具有高储氢容量的氧化铜纳米带的制备方法，公开号：CN201110169008.7（申请）。 3. 2014年7月，齐立红，陈玉金，李春燕，欧阳秋云，模板法制备的二维TiO2纳米材料的方法，授权号：ZL201410083153.7（授权）。奖励　　1.2014年8月，金属氧化物纳米结构的设计、构建及其协同效应研究，黑龙江省自然科学技术奖，二等奖，排名第四。　　2.2014年3月，金属氧化物纳米结构的设计、构建及其协同效应研究，黑龙江省高校科学技术奖，二等奖，排名第四。　　3.2014年8月，石墨烯/硫化镉游记玻璃的合成及增强的非线性光学特性，哈尔滨市自然科学技术成果奖，二等奖，排名第一。　　4.2013年3月，哈尔滨工程大学2012年教学建设与研究评价奖，三等奖，排名第一。　　5.2012年9月，文科物理教育过程中的探索研究，2012年度教育改革优秀教学论文大赛奖，一等奖，排名第一。

研究领域

(1) 纳米薄膜、纳米复合材料、二维纳米材料、石墨烯纳米复合有机玻璃等材料的制备及光学非线性的研究。 (2) 激光防护器件的研究。 (3) 二维纳米材料作为饱和吸收体的光纤激光器性能研究。

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. X. C. Zhang, X. Zhang, H. R. Yuan, K. Y. Li, Q. Y. Ouyang, C. L. Zhu, S. Zhang, and Y. J. Chen. CoNi nanoparticles encapsulated by nitrogen-doped carbon nanotube arrays on reduced graphene oxide sheets for electromagnetic wave absorption. Chem. Engineer. J. 2020, 383: 123208 (SCI, IF: 10.652, JCR-1, WOS:000504404800028, 被引8次). 2. X. C. Zhang, J. Xu, H. R. Yuan, S. Zhang, Q. Y. Ouyang,C. L. Zhu, X. T. Zhang, and Y. J. Chen. Large-scale synthesis of three-dimensional reduced graphene oxide/nitrogen-doped carbon nanotube heteronanostructures as highly efficient electromagnetic wave absorbing materials. ACS Appl. Mater. Interfaces, 2019, 11(42): 39100–39108 (SCI, IF: 8.456, JCR-1, WOS:000492802100078, 被引11次). 3. P. F. Wang, H. Zhang, Y. Yin, Q. Y. Ouyang, Y. J. Chen, E. Lewis, G. M. Tokurakawa, S. W. C. Wang, and S. Li. NiS2 as a broadband saturable absorber for ultrafast pulse lasers. Opt. Laser Tech. 2020, 132: 106492 (SCI, IF: 3.233, JCR-1, WOS:000566918000002). 4. C. M. Lv, X. W. Wang, Q. Li, C. Y. Li, Q. Y. Ouyang, Y. J. Liu, and L. H. Qi. Template-assisted synthesis of porous TiO(2)photoanode for efficient dye-sensitized solar cells. J. Mater. Res. 2020, 35(16): 2138-2147 (IF: 1.982, JCR-3, WOS:000563483700007). 5. K. Zhang, J. He, R. R. Shen, X. G. Sun, Q. Y. Ouyang*, Y. J. Chen, Y. M. Gao, and W. Ji. Synthesis and tunable nonlinear absorption properties of Zn3Mo2O9 nanosheet ceramic material. Opt. Mater., 2020, 99: 109570 (SCI, WOS:000518692000001, IF: 2.687, JCR-2, 被引2次). 6. X. G. Sun, R. R. Shen, J. He, and Q. Y. Ouyang*. The synthesis and nonlinear optical properties of NiS2/MoS2 composites. Opt. Mater., 2019, 98: 109421 (SCI, WOS:000505108100010, IF: 2.687, JCR-2). 7. S. Li, Y. Yin, Q. Y. Ouyang, Y. J. Chen, E. Lewis, G. Farrell, M. Tokurakawa, S. W. Harun, and P. F. Wang. Dissipative soliton generation in Er-doped fibre laser using SnS2 as a saturable absorber. Appl. Phys. Express, 2019, 12(10): 102008 (SCI, IF: 2.772, JCR-2, WOS:000485726800001, 被引6次). 8. S. Li, Y. Yin, Q. Y. Ouyang, G. C. Ran, Y. J. Chen, E. Lewis, G. Farrell, M. Tokurakawa, S. W. Harun, and P. F. Wang. Nanosecond passively Q-switched fibre laser using a NiS2 based saturable absorber. Opt. Express, 2019, 27(14): 19843–19851 (SCI, IF: 3.561, JCR-1, WOS:000474429600068, 被引5次). 9. S. Li, Y. Yin, G. C. Ran, Q. Y. Ouyang, Y. J. Chen, M. Tokurakawa, E. Lewis, S. W. Harun, and P. F. Wang. Dual-wavelength mode-locked erbium-doped fiber laser based on tin disulfide thin film as saturable absorber. J. Appl. Phys., 2019, 125(24): 243104 (SCI, IF: 2.328, JCR-2, WOS:000474439600040, 被引9次). 10. X. M. Gao, C. Y. Li, C. L. Zhu, Q. Y. Ouyang, X. T. Zhang, and Y. J. Chen. Synthesis and low-temperature sensing property of the porous ZnCo2O4 nanosheets. J. Mater. Sci-Mater. Electron., 2019, 30(6): 5357–5365 (SCI, IF: 2.195, JCR-2, WOS:000462481400004, 被引1次). 11. P. Zhou, Z. Q. Huang, X. G. Sun, G. C. Ran, R. R. Shen, and Q. Y. Ouyang*. Saturable absorption properties of the SnS2/FTO thin film. Optik, 2018, 171: 839–844 (SCI, IF: 1.914, JCR-3, WOS:000444660700108, 被引1次). 12. X. M. Gao, Y. Sun, C. L. Zhu, C. Y. Li, Q. Y. Ouyang, and Y. J. Chen. Highly sensitive and selective H2S sensor based on porous ZnFe2O4 nanosheets. Sens. Actu. B-Chem., 2017, 246: 662–672 (SCI, IF: 6.396, JCR-1, WOS:000400803700080, 被引41次). 13. Q. Y. Ouyang, K. Zhang, W. Q. Chen, F. Zhou, and W. Ji. Nonlinear absorption and nonlinear refraction in a chemical vapor deposition-grown, ultrathin hexagonal boron nitride film. Opt. Lett., 2016, 41(7): 1368–1371 (SCI, IF: 3.866, JCR-1, WOS:000373225400016, 被引9次). 14. B. Qu, Q. Y. Ouyang, X. B. Yu, W. H. Luo, L. H. Qi, and Y. J. Chen. Nonlinear absorption, nonlinear scattering, and optical limiting properties of MoS2–ZnO composite-based organic glasses. Phys. Chem. Chem. Phys., 2015, 17(8): 6036–6043 (SCI, IF: 4.493，JCR-1, WOS:000349697200059, 被引13次). 15. Q. Y. Ouyang, H. L. Yu, K. Zhang, and Y. J. Chen. Saturable absorption and the changeover from saturable absorption to reverse saturable absorption of MoS2 Nanoflake Array Films. J. Mater. Chem. C, 2014, 2(31): 6319–6325 (SCI, IF: 6.641，JCR-1, WOS:000340353700010, 被引45次). 16. Q. Y. Ouyang, Z. Xu, Z. Y. Lei, H. W. Dong, H. L. Yu, L. H. Qi, C. Y. Li, and Y. J. Chen. Enhanced nonlinear optical and optical limiting properties of graphene/ZnO hybrid organic glasses. Carbon, 2014, 67: 214–220 (SCI, IF: 7.466, JCR-1, WOS:000329379300024, 被引33次). 17. Q. Y. Ouyang, X. P. Di, Z. Y. Lei, L. H. Qi, C. Y. Li, and Y. J. Chen. Enhanced reverse saturable absorption in graphene/Ag2S organic glasses. Phys. Chem. Chem. Phys., 2013, 15(26): 11048–11053 (SCI, IF: 4.493, JCR-1, WOS:000320321600053, 被引11次). 18. Q. Y. Ouyang, H. L. Yu, Z. Xu, Y. Zhang, C. Y. Li, L. H. Qi, and Y. J. Chen. Synthesis and Enhanced Nonlinear Optical Properties of Graphene/CdS Organic Glass. Appl. Phys. Lett., 2013, 102(3): 031912 (SCI, IF: 3.521, JCR-1, WOS:000314032600040, 被引27次). 19. Q. Y. Ouyang, H. L. Yu, Z. Y. Lei, L. H. Qi, and Y. J. Chen. Graphene/MoS2 organic glasses: Fabrication and enhanced reverse saturable absorption properties. Opt. Mater., 2013, 35(12): 2352–2356 (SCI, IF: 2.687, JCR-2, WOS:000326660500051, 被引15次). 20. Q. Y. Ouyang, Y. J. Chen, and C. Y. Li. The fabrication and enhanced nonlinear optical properties of electrostatic self-assembled film containing water-soluble polymers. Mater. Chem. Phys., 2012, 134(1): 80–86 (SCI, IF: 2.781, JCR-2, WOS:000304581300015, 被引13次). 21. Q. Y. Ouyang, L. Li, Q. S. Wang, Y. Zhang, T. S. Wang, F. N. Meng, Y. J. Chen, and P. Gao. Facile synthesis and enhanced H2S sensing performances of Fe-doped α-MoO3 Micro-structures. Sens. Actu. B-Chem., 2012, 169: 17–25 (SCI, IF: 6.396, JCR-1, WOS:000305719600003, 被引56次). 22. Q. Y. Ouyang, Y. D. Zhang, H. Tian, D. J. Liu, P. Yuan, and Y. L. Song. The superluminal propagation in an organic nonlinear optical glass at room temperature. J. Appl. Phys., 2010, 108(7): 1–5 (SCI, IF: 2.328, JCR-2, 被引4次). 23. Q. Y. Ouyang, X. R. Zhang, and Y. L. Song. The third- and fifth-order nonlinear refraction in the single- and double-sided TMAF/PSS electrostatic self-assembly films. J. Nonlinear Opt. Phys., 2008, 17(4): 487–493 (SCI, IF: 1.4916, JCR-3, 被引1次). 24. Q. Y. Ouyang, X. R. Zhang, L. Jiang, Q. Chang, Y. X. Wang, and Y. L. Song. Characterization of nonlinear optical properties in the double-sided nonlinear mediums with Z-scan technique based on the Huygens-Fresnel principle. Chin. Phys., 2006, 15(8):1810–1814 (SCI, IF: 1.343, JCR-2, 被引4次). 25. Q. Y. Ouyang, X. R. Zhang, W. Zhang, L. Jiang, Y. X. Wang, Y. L. Song, and Y. L Li. Refractive non-linearity in double-sided nanosize films containing methanofullerene derivative fabricated by electrostatic self-assembly technique. Opt. Commun. 2005, 252(4–6):402–407 (SCI, IF: 1.961, JCR-3, 被引4次). 26. X. R. Zhang, Q. Y. Ouyang, Y. X. Wang, L. Jiang, Y. L. Song, Y. L Li, and T. H. Wei. Nonresonant saturation absorption in electrostatic self-assembly films containing methanofullerene. Chin. Phys. Lett., 2005, 22(8):1898–1901 (SCI, IF: 1.066, JCR-3, 被引6次). 27. Y. J. Chen, X. M. Gao, X. P. Di, Q. Y. Ouyang, P. Gao, L. H. Qi, C. Y. Li, and C. L. Zhu. Porous iron molybdate nanorods: in situ diffusion synthesis and low-temperature H2S gas sensing. ACS Appl. Mater. Inter., 2013, 5: 3267–3274 (SCI, IF: 7.145，JCR-1, 被引52次). 28. Y. J. Chen, F. N. Meng, H. L. Yu, C. L. Zhu, T. S. Wang, P. Gao, and Q. Y. Ouyang. Sonochemical synthesis and ppb H2S sensing performances of CuO nanobelts. Sens. Actu. B-Chem., 2013, 176: 15-21 (SCI, IF: 6.396, JCR-1, 被引33次). 29. Y. J. Chen, X. P. Di, C. Ma, C. L. Zhu, P. Gao, J. Q. Li, C. W. Sun, and Q. Y. Ouyang. Graphene–MoO2 hierarchical nanoarchitectures: in situ reduction synthesis and high rate cycling performance as lithium-ion battery anodes. RSC Adv., 2013, 3(39): 17659–17663 (SCI, IF: 3.049, JCR-2, 被引29次). 30. Y. J. Chen, Z. Y. Lei, H. Y. Wu, C. L. Zhu, P. Gao, Q. Y. Ouyang, L. H. Qi, and W. Qin. Electromagnetic absorption properties of graphene/Fe nanocomposites. Mater. Res. Bull., 2013, 48(9): 3362–3366 (SCI, IF: 3.355, JCR-2, 被引68次). 31. Y. J. Chen, Q. S. Wang, C. L. Zhu, P. Gao, Q. Y. Ouyang, T. S. Wang, Y. Ma, and C. W. Sun. Graphene/porous cobalt nanocomposite and its noticeable electrochemical hydrogen storage ability at room temperature. J. Mater. Chem., 2012, 22(13): 5924–5927 (SCI, IF: 6.626, JCR-1, 被引82次). 32. Y. J. Chen, F. N. Meng, C. Ma, Z. W. Yang, Z. L. Zhu, Q. Y. Ouyang, P. Gao, J. Q. Li, and C. W. Sun. In situ diffusion growth of Fe2(MoO4)3 Nanocrystals on the surface of α-MoO3 nanorods with significantly enhanced ethanol sensing properties. J. Mater. Chem., 2012, 22(25): 12900–12906 (SCI, IF: 6.626, JCR-1, 被引38次). 33. Y. J. Chen, G. Xiao, T. S. Wang, Q. Y. Ouyang, L. H. Qi, Y. M, P. Gao, C. L. Zhu, M. S. Cao, and H. B. Jin. Porous Fe3O4/carbon core/shell nanorods: synthesis and electromagnetic properties. J. Phys. Chem. C, 2011, 115(28): 13603–13608 (SCI, IF: 4.309，JCR-1，被引274次，高被引论文). 34. L. H. Qi, Z. X. Yin, S. Zhang, Q. Y. Ouyang, C. Y. Li, and Y. J. Chen. The iincreased interface charge transfer in dye-sensitized solar cells based on well-ordered TiO2 nanotube arrays with different lengths. J. Mater. Res., 2014, 29(7): 745–752 (SCI, IF: 1.982, JCR-3, 被引7次). 35. L. H. Qi, H. L. Yu, Z. Y. Lei, Q. S. Wang, Q. Y. Ouyang, C. Y. Li, and Y. J. Chen. Dye-sensitized solar cells based on ZnO nanowire array/TiO2 nanoparticle composite photoelectrodes with controllable nanowire aspect ratio. Appl. Phys. A, 2013, 111: 279–284 (SCI, IF: 1.784, JCR-3, 被引16次). 36. L. H. Qi, Y. Ma, Q. Y. Ouyang, Y. Zhang, L. Li, and Y. J. Chen. The controllable synthesis of chain-like TiO2 networks with multiwalled carbon nanotubes as templates and its application for dye-sensitized solar cells. J. Nanopart. Res., 2012, 14: 907–915（SCI, IF: 2.009, JCR-3, 被引8次). 37. L. H. Qi, Q. S. Wang, T. S. Wang, C. Y. Li, Q. Y. Ouyang, and Y. J. Chen. Dye-sensitized Solar Cells Based on ZnO Nanoneedle/TiO2 Nanoparticle Composite Photoelectrodes with Controllable Weight Ratio. J. Mater. Res. 2012, 27: 2892–2897 (SCI, IF: 1.982, JCR-3, 被引4次). 38. Q. S. Wang, Z. Y. Lei, Y. J. Chen, Q. Y. Ouyang, P. Gao, L. H. Qi, C. L. Zhu, and J. Z. Zhang. Branched polyaniline/molybdenum oxide organic/inorganic heteronanostructures: synthesis and electromagnetic absorption properties. J. Mater. Chem. A, 2013, 1(38): 11795–11801 (SCI, IF: 10.733, JCR-1, 被引42次). 39. T. S. Wang, Z. H. Liu, M. M. Lu, B. Wen, Q. Y. Ouyang, Y. J. Chen, C. L. Zhu, P. Gao, C. Y. Li, M. S. Cao, and L. H. Qi. Graphene–Fe3O4 nanohybrids: synthesis and excellent electromagnetic absorption properties. J. Appl. Phys. 2013, 113: 024314 (SCI, IF: 2.328, JCR-2, 被引183次，高被引论文). 40. T. S. Wang, Q. S. Wang, C. L. Zhu, Q. Y. Ouyang, L. H. Qi, C. Y. Li, G. Xiao, P. Gao, and Y. J. Chen. Synthesis and enhanced H2S gas sensing properties of MoO3/CuO p–n junction nanocomposite. Sens. Actu. B-Chem., 2012, 171–172: 256–262 (SCI, IF: 6.396, JCR-1, 被引50次). 41. H. L. Yu, C. L. Zhu, K. Zhang, Y. J. Chen, C. Y. Li, P. Gao, P. P. Yang, and Q. Y. Ouyang. Three-dimensional hierarchical MoS2 nanoflake array/carbon cloth as high-performance flexible lithium-ion battery anodes. J. Mater. Chem. A, 2014, 2(13): 4551–4557 (SCI, IF: 10.733, JCR-1, 被引120次). 42. H. L. Yu, C. Ma, B. H. Ge, Y. J. Chen, Z. Xu, C. L. Zhu, C. Y. Li, Q. Y. Ouyang, P. Gao, J. Q. Li, C. W. Sun, L. H. Qi, Y. M. Wang and F. H. Li. Three-dimensional hierarchical architectures constructed by graphene/MoS2 nanoflake arrays and their rapid charging/discharging properties as lithium-ion battery anodes. Chem. Eur. J., 2013, 19: 5818–5823 (SCI, IF: 5.16, JCR-1, 被引114次). 43. Y. L. Ren, C. L. Zhu, S. Zhang, C. Y. Li, Y. J. Chen, P. Gao, P. P. Yang, and Q. Y. Ouyang. Three-dimensional SiO2@Fe3O4 core/shell nanorod array/graphene architecture: synthesis and electromagnetic absorption properties. Nanoscale, 2013, 5: 12296–1230 (SCI, IF: 6.97, JCR-1, 被引171次，高被引论文). 44. Y. L. Ren, H. Y. Wu, M. M. Lu, Y. J. Chen, C. L. Zhu, P. Gao, M. S. Cao, C. Y. Li, and Q. Y. Ouyang. Quaternary nanocomposites consisting of graphene, Fe3O4@Fe core@shell, and ZnO nanoparticles: synthesis and excellent electromagnetic absorption properties. ACS Appl. Mater. & Interfaces, 2012, 4: 6436–6442 (SCI, IF: 8.456, JCR-1, 被引231次，高被引论文). 45. C. L. Zhu, H. L. Yu, Y. Zhang, T. S. Wang, Q. Y. Ouyang, L. H. Qi, Y. J. Chen, and X. Y. Xue. Fe2O3/TiO2 tube-like nanostructures: synthesis, structural transformation and the enhanced sensing properties. ACS Appl. Mater. & Interfaces, 2012, 4: 655–671 (SCI, IF: 8.456, JCR-1, 被引82次). 46. C. Y. He, W. B. Duan, G. Shi, Y. Q. Wu, Q. Y. Ouyang, and Y. L. Song. Strong nonlinear optical refractive effect of self-assembled multilayer films containing tetrasulfonated iron phthalocyanine. Appl. Surf. Sci., 2009, 255(8): 4696–4701 (SCI, IF: 5.155, JCR-1, 被引13次). 47. H. Tian, Y. D. Zhang, H. Wang, Q. Y. Ouyang, N. Wang, and P. Yuan. Optical soliton with group delay in microring goupled-resonator optical waveguides. Chin. Phys. B, 2009, 18(1): 221–224 (SCI, IF: 1.469, JCR-3, 被引4次). 48. Y. D. Zhang, H. Tian, H. Wang, Q. Y. Ouyang, N. Wang, and P. Yuan. Continuous adjustment of group delay by tuning the argument of coupling coefficient in microring coupled-resonator optical waveguides. Appl. Phys. B, 2008, 93(2-3): 469–472 (SCI, IF: 1.769, JCR-3). 49. Y. D. Zhang, H. Wang, L. Ma, N. Wang, H. Tian, Q. Y. Ouyang, and P. Yuan. Negative group velocity in C60 due to RSA effect. Appl. Phys. B, 2007, 89(2-3): 141–143 (SCI, IF: 1.769, JCR-3, 被引5次). 50. H. Xu, W. Y. Huang, F. L. Peng, K. Xue, S. G. Yu, X. Z. Gao, Q. Y. Ouyang, Q. Chang, and Z. M. Lu. Maneuver control of mobile robot based on equivalent instantaneous center of rotation in rough terrain. 2007 IEEE INTERNATIONAL CONFERENCE ON MECHATRONICS AND AUTOMATION, VOLS I-V, CONFERENCE PROCEEDINGS, 405. 51. H. Xu, K. Xue, P. F. Leng, S. H. Yu, X. Z. Gao, Q. Y. Ouyang, Q. Chang, and Z. M. Lu. 3-D kinematics modeling for mobile robot with steering castered-and-cambered wheels. 2007 IEEE INTERNATIONAL CONFERENCE ON MECHATRONICS AND AUTOMATION, VOLS I-V, CONFERENCE PROCEEDINGS. 1345. 52. L. Jiang, Q. Chang, Q. Y. Ouyang, H. B. Liu, Y. X. Wang, X. R. Zhang, Y. L. Song, and Y. L. Li. Fabrication and nonlinear optical properties of an ultrathin film with acceptor–donor periodically overlapping structure. Chem. Phys., 2006, 324(2–3):556–562 (SCI, IF: 1.822, JCR-3, 被引17次).

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