热点话题人物,欢迎提交收录!
最优雅的名人百科,欢迎向我们提交收录。
杨兴华
2023-05-10 19:46
  • 杨兴华
  • 杨兴华 - 教授 博士生导师-哈尔滨工程大学-物理与光电工程学院-个人资料

近期热点

资料介绍

个人简历


杨兴华,男,教授,博士生导师。“纤维集成光学”教育部重点实验室教师,中国光学学会高级会员,中国工程技术学会会员,黑龙江省光学学会理事。2008年于中国科学院 西安光学精密机械研究所,瞬态光学与光子技术国家重点实验室取得博士学位。在微结构光纤及其应用、光纤传感(光流控器件、光纤干涉、光纤光栅、光学生化传感技术在生物、医疗领域中的应用)、光纤制备(微结构光纤等)、光学材料及集成器件(微纳传感器、调制器等)等多个方向取得创新性研究成果。
欢迎生物、化学等交叉学习背景的硕士生报考博士yangxh@hrbeu.edu.cn。
教育经历
工作经历
  2014/07-2015/07 美国中佛罗里达大学,光学与光子学研究中心(CREOL),访问学者;
  2008/09-2016/05,哈尔滨工程大学,理学院,副教授;
  2016/06-至今,哈尔滨工程大学,物理与光电工程学院,教授。
承担项目
  1、国家自然科学基金 面上项目,11574061、“基于空心双芯光纤的全光纤集成式光流控生物传感器” 2016/01-2019/12,主持。
  2、国家自然科学基金 青年基金项目,61007053、“基于内壁波导型毛细管光纤的在线生化传感器研究”、2011/01-2013/12,主持。
  3、黑龙江省自然科学基金 面上项目,F201405、“基于环状芯光纤的大数值孔径光锥及其应用研究”、2014/07-2017/07,主持。
  4、中国博士后基金 面上项目,2014M551217“新型悬挂芯光纤集成式微流控在线传感器研究”,主持。
  5、教育部博士点新教师基金项目、20090002120013、“基于毛细管光纤的气体传感器研究”,主持。
  6、教育部重点实验室开放课题,“基于悬挂芯光纤的在线生化传感器研究”,主持
  7、教育部重点实验室开放课题,“微流芯片与光纤生化传感器研究”,主持。
  8、哈尔滨工程大学科研启动基金项目、160110300019、“基于微结构光纤的在线生化传感器研究”,主持。
专利成果
  1.杨兴华; 苑婷婷;赵恩铭;李恩涛;苑立波,内悬芯光纤光栅温度自动补偿微流控传感器及内悬芯光纤, 2016年01月27日,中国,201410136112.X,
  2.苑立波; 杨兴华; 张涛,一种基于内壁波导型毛细管光纤的在线倏逝场生化传感器, 2012.2,中国,ZL201010121563.8
  3.苑立波;杨兴华;田凤军,基于悬挂芯光纤的气体吸收谱线参考装置,2012.5,中国,ZL201010149107.4
  4.苑立波, 杨兴华, 基于悬挂芯光纤的在线气体传感器,2011.11,中国, ZL201010149040.4.
  5.苑立波, 杨军,杨兴华, 悬挂芯光纤的分布式光纤气体传感器,2011.9,中国, ZL201010153628.7
  6.苑立波; 戴强; 田凤军; 杨兴华; 张涛 一种变周期型阵列多芯光纤及其制备方法,2012.12,中国,ZL201010172975.4

研究领域


""

近期论文


1. Yang, Xinghua*; Long, Qunlong; Liu, Zhihai; Zhang, Yu; Yang, Jun; Kong, Depeng; Yuan, Libo; Oh, Kyunghwan, Microfiber interferometer integrated with Au nanorods for an all-fiber phase shifter and switch, Optics Letters, 2019, 44(5) 1092-1095. SCI(JCR-1 区, 影响因子3.4)
2. Xinghua Yang*, Wenting Yu, Zhihai Liu, Jun Yang, Yu Zhang, Depeng Kong, Qunlong Long, Tingting Yuan, Jiaming Cao, Libo Yuan, Optofluidic twin-core hollow fiber interferometer for label-free sensing of the streptavidin-biotin binding, Sensors and Actuators B: Chemical 277, 2018, 353-359. SCI(中科院1 区,JCR-1 区, 影响因子4.8).
3. Xinghua Yang*, Qikai Zhao, Xiuxiu Qi, Qunlong Long, Wenting Yu, Libo Yuan, In-fiber integrated gas pressure sensor based on a hollow optical fiber with two cores, Sensors and Actuators A: Physical 272, 2018, 23-27. SCI(影响因子2.3).
4. Tingting Yuan, Xiuxiu Qi, Zhihai Liu, Jun Yang, Chunying Guan, Qunlong Long, Jiaming Cao, Meng Luo, Xinghua Yang*, LiboYuan, Humidity sensor based on micro optical fiber array fabricated by electrospinning, Optics Communications, 427, 2018, 517-521. (SCI,影响因子1.5)
5. Xinghua Yang*, Meihua Zhou, Song Li, Zhihai Liu, Jun Yang, Yu Zhang, Tingting Yuan, Xiuxiu Qi, Hanyang Li, Libo Yuan, On-line dynamic detection in the electrophoretic separation by tapered optical fiber interferometer, Sensors and Actuators B: 242, 2017, 667-672. 第1 作者, SCI(中科院1 区,JCR-1 区, 影响因子4.8).
6. Tingting Yuan, Xinghua Yang*, Zhihai Liu, Jun Yang, Song Li, Depeng Kong, Xiuxiu Qi, Wenting Yu, Qunlong Long, and Libo Yuan, Optofluidic in-fiber interferometer based on hollow optical fiber with two cores, Optics Express 25(15), 2017, 18205-18215. (SCI,JCR-1区,影响因子3.4)
7. Qikai Zhao, Fengjun Tian, Xinghua Yang*, Song Li, Jianzhong Zhang, Xiaoling Zhu, Jun Yang, Zhihai Liu, Yu Zhang, Tingting Yuan, Libo Yuan, Optical fibers with special shaped cores drawn from 3D printed preforms, Optik - International Journal for Light and Electron Optics, 2017, 133:60-65. 通讯作者, (SCI,影响因子1)
8. Xinghua Yang*, Xianhui Guo, Song Li, Depeng Kong, Zhihai Liu, Jun Yang, Libo Yuan, Lab-on-fiber electrophoretic trace mixture separating and detecting an optofluidic device based on a microstructured optical fiber, Optics Letters, 2016, 41,1873-1876, 第1 作者, SCI(JCR-1 区, 影响因子3.4)
9. Xiaohui Guo, Xinghua Yang*, Song Li, Zhihai Liu, Minggang Hu, Bin Qu, Libo Yuan, An integrated nematic liquid crystal in-fiber modulator derivates from capillary optical fiber, Optics Communications, 367, 2016, 249-253. 通讯作者, (SCI,影响因子1.5)
10. Xiaohui Guo, Xinghua Yang*, Song Li, Zhihai, Liu, Libo Yuan, An integrated nematic liquid crystal in-fiber modulator derivates from capillary optical fiber, Optics Communications, 2016,367:249-253,通讯作者, (SCI,影响因子1.5)
11. Xinghua Yang*, Tingting Yuan, Entao Li, Libo Yuan, Optofluidic integrated in-fiber fluorescence online optical fiber sensor, Sensors and Actuators B, 2015, 215, 345-349, 第1作者,SCI(中科院1 区,JCR-1 区, 影响因子4.1)
12. Xinghua Yang*, Tingting Yuan, Pingping Teng, Depeng Kong, Chunlan Liu, Enming Zhao, Chongguo Tong, Libo Yuan, An In-fiber integrated optofluidic device based on optical fiber with an inner core, Lab Chip, 2014, 14, 2090-2095,第1 作者, SCI(中科院1 区,JCR-1 区, 影响因子6.1)
13. Xinghua Yang*, Yao Zheng, Shouzhu Li, Yanxin Liu, Libo Yuan, Microfluidic in-fiber oxygen sensor derivates from a capillary optical fiber with a ring-shaped waveguide, Sensors and Actuators B, 2013, 182:571-575, 第1 作者, SCI(中科院1 区,JCR-1 区, 影响因子4.1).
14. Xinghua Yang*, Tingting Yuan, Jun Yang, Biao Dong, Yanxin Liu, Yao Zheng, Libo Yuan, In-fiber integrated chemiluminiscence online optical fiber sensor, Optics Letters, 2013, 38,3433-3436, 第1 作者, SCI(JCR-1 区, 影响因子3.4)
15. Xinghua Yang*, Yanxin Liu, Yao Zheng, Shouzhu Li, Libo Yuan, Tingting Yuan, A capillary optical fiber modulator derivates from magnetic fluid, Optics Communications, 2013,304:83-86,第1 作者, (SCI,影响因子1.5)
16. Xinghua Yang*, Yanxin Liu, Yao Zheng, Shouzhu Li, Libo Yuan, Optical fiber modulator derivates from hollow optical fiber with suspended core, Optics Letters, 2012, 37,2115-2117, 第1 作者, SCI(JCR-1 区, 影响因子3.4)
17. Le Li, Xinghua Yang*, Libo Yuan, One-dimensional optical materials of microfibers by electrospinning, Materials Letters, 2012,66,292-295, SCI(JCR-1 区, 影响因子2.5)
18. Le Li, Xinghua Yang*, Libo Yuan, Enming Zhao, Fengjun Tin, Shenzi Luo, Yanxin Liu, Electrospinning of poly(methyl methacrylate) (PMMA) for optical waveguide, Sensor Letters, 2012,10, 1544-1547. (SCI,影响因子1)
19. Xinghua Yang*, Le Li, Libo Yuan, Shouzhu Li, Shenzi Luo, Yanxin, Liu, Lirong Peng, Submicrometer organic silica gel fiber for oxygen sensing, Optics Letters, 2011, 36,4656-4658, 第1 作者, SCI(JCR-1 区, 影响因子3.4)
20. Lirong Peng, Xinghua Yang*, Libo Yuan, Lili Wang, Enming Zhao, Fengjun Tian, Yanxin Liu, Gaseous ammonia fluorescence probe based on cellulose acetate modified microstructured optical fiber,Optics Communications, 2011,284:4810-4814,通讯作者, (SCI,影响因子1.5)
21. Xinghua Yang*, Lirong Peng, Libo Yuan, Pingpng Teng, Fengjun Tian, Shenzi Luo, Oxygen gas optrode based on microstructured polymer optical fiber segment, Optics Communications, 2011,284:3462-3466,第1 作者, (SCI,影响因子1.5)
22. Xinghua Yang*, Xiaoliang Zhu, Libo Yuan, Jinghua Sun, Yijun Liang, Fabricating of silver and copper nano/microtubes using nano-scale glass fibers as templates, Journal of Materials Science, 2009,44: 3382-3386, 第1 作者, SCI(JCR-1 区, 影响因子2.4)
23. Xinghua Yang*, Jian Wang, “Sol-gel matrix modified microstructured optical fibre towards a fluoride sensitive optical probe”, Optics Commuications, 282(13): 2502, 2009, (SCI,影响因子1.5)
24. X. H. Yang, L. Wang “Silver nanocrystals modified microstructured polymer optical fibers for chemical and optical sensing”, Optics Commuications, 280(2):368, 2007, (SCI,影响因子1.5)
25. Xinghua Yang, L. Wang, L.J. Kang “Fluorescence pH probe based on microstructured polymer optical fibre”, Optics Express, 15(25), 16478, 2007, (SCI,JCR-1 区,影响因子3.4)
26. X. H. Yang, L. Wang and S. Yang, “Facile route to fabricate large-scale silver microtubes”, Materials Letters, 61(14-15),2904, 2007, (SCI,影响因子2.7)
27. Xinghua Yang, Changlu Shao*, Yichun Liu “Fabrication of Cr2O3/Al2O3 composite nanofibers by electrospinning”, Journal of Materials Science, 42:8470,2007, (SCI,影响因子3.0)
28. X. H. Yang and L. Wang “Synthesis of novel hexagon SnO2 nanosheets in ethanol/water solution by hydrothermal process”, Materials Letters, 61(17), 3705, 2007, (SCI,影响因子2.7)
29. Xinghua Yang, Changlu Shao*, Yichun Liu, Rixiang Mu and Hongyu Guan;“Nanofibers of CeO2 via an electrospinning technique”, Thin Solid Films, 478(1-2):228,2005, (SCI,影响因子2.0)
30. Xinghua Yang, Changlu Shao*, Hongyu Guan, Xiliang Li and Jian Gong, “Preparation and characterization of ZnO nanofibers by using electrospun PVA/zinc acetate composite fiber as precursor”, Inorgnic Chemistry Communications, 7(2):176, 2004, (SCI, 影响因子1.8)
31. Changlu Shao*, Xinghua Yang, Hongyu Guan, Yichun Liu and Jian Gong, “Electrospun nanofibers of NiO/ZnO composite”, Inorgnic Chemistry Communications, 7(5),625,2004 (SCI,影响因子1.8).
32. Shao Changlu*, Yang Xinghua, Guan Hongyu, Yu Na and Liu Yichun, “Preparation of α-Fe2O3 Nanofiber via Electrospinning”, Chemical Research in Chinese Universities, 20(5):521,2004 (SCI 影响因子1.3).
33. J. Wang, Xinghua Yang, L. Wang, “Fabrication and experimental observation of monolithic multi-air-core fiber array for image transmission”, Optics Express, 16(11),7703, 2008 (SCI, 影响因子3.4).
34. L. Kang, L. Wang, and Xinghua Yang, “Fabrication of hollow-core photonics band-gap microstructured polymer optical fiber by extrusion”, in Proceedings of 16th International Conference on Polymer Optical Fiber, 253, Turin, Italy, 2007 (ISTP 收录)
35. L. Wang, L. Kang, Xinghua Yang, and Xinghua Chen, “Progress in extrusion technology of big-size holey for performs”, in Proceedings of 16th International Conference on Polymer Optical Fiber, 117, Turin, Italy, 2007 (ISTP 收录)
36. Xinghua Yang, Lili Wang, Lijun Kang, and Sheng Yang, “Nanosilver modified polymer crstal optical fiber for electroanalysis and fluorescence detection”, in Proceedings of 16th International Conference on Polymer Optical Fiber, 214, Turin, Italy, 2007 (ISTP 收录)
37. Kang. Li, Xinghua. Yang, Lili Wang, and Wei Zhao, “Dye-doped microstructured polymer optical fibre laser with high numerical aperture air-clad”, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest Series (CD), CML4, Optical Society of America, 2007 (ISTP 收录)
38. Na Yu, Changlu Shao*, Yichun Liu, Hongyu Guan and Xinghua Yang. “Nanofibers of LiMn2O4 by electrospinning”, Journal Colloid Interface Science, 285(1):163, 2004 (SCI 收录)
39. Hongyu Guan, Changlu Shao*, Yichun Liu, Na Yu and Xinghua Yang, “Fabrication ofNiCo2O4 nanofibers by electrospinning”, Solid State Communications, 131(2),107,2004 (SCI 收录)
40. Changlu Shao*, Hongyu Guan, Yichun Liu, Jian Gong, Na Yu and Xinghua Yang, “A novel method for making ZrO2 nanofibres via an electrospinning technique”, Journal of Crystal Growth, 267(1-2),380,2004 (SCI 收录)
41. Changlu Shao*, Hongyu Guan, Yichun Liu, Xiliang Li and Xinghua Yang, “Preparation of Mn2O3 and Mn3O4 nanofibers via an electrospinning technique”, Journal of Solid State Chemistry, 177(7),2628, 2004 (SCI 收录)
42. 赵恩铭,李恩涛,滕平平等,基于表面开孔光纤的集成式亚硝酸盐微流荧光传感器[J],光学精密工程,2015,23(8),2158-2163.(EI 收录)
43. 赵恩铭,郑瑶,刘岩鑫等,基于内壁芯光纤的调制器件[J],光学精密工程,2013, 21(4),884-888.(EI 收录)
44. Lirong Peng, Xinghua Yang*, Libo Yuan, Ammonia Detection by Dye Immobilized Microstructured Optical Fiber, Advanced Materials Research, 2011, 255-260: 2131-2135., EI (Accession number:20112714114228).
45. Tingting Yuan, Xiaotong Zhang, Chunying Guan, Xinghua Yang, Libo Yuan, Single mode fiber and twin-core fiber connection technique for in-fiber integrated interferometer, 24th International Conference on Optical Fibre Sensors (OFS), Curitiba, BRAZIL: SEP 28-OCT 02, 2015. EI (Accession number:20154501518451).
46. Tingting Yuan, Xinghua Yang, Pingping Teng, In-fiber integrated microfluidic sensor based on optical fiber with suspended core, 23rd International Conference on Optical Fibre Sensors, Santander, SPAIN, JUN 02-06, 2014. EI (Accession number:20142717880176).
47. 杨兴华*, 彭利荣, 滕平平, 苑立波, 王丽莉, 溶胶-凝胶薄膜修饰的微结构聚合物光纤氟离子传感探头,光学精密工程, 2010, 18:83-87. EI (Accession number:20101212786739).
48. 赵恩铭,雒莘梓,苑立波,杨元元,彭利荣,杨兴华,光纤O_2 敏感探头的制备与性能测试,光学精密工程, 2012, 20:2411-2415, EI (Accession number:20125115818922).
49. 赵恩铭,雒莘梓,李乐,刘岩鑫,杨兴华,郑瑶,电纺氧化硅凝胶亚微米光波导,光学精密工程, 2012, 6:1282-1286, EI (Accession number:20122615179788).
50. 彭利荣, 杨兴华, 张健, 代雷, 马占龙, 彭石军, 基于光纤的溶解氧浓度荧光测定法, 发光学报, 2014, 35,382-386. EI (Accession number:20141317523170).

相关热点

扫码添加好友