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Chen Zhenyi.
Study of a dynamic-shape-curve function for a fused tapering optical fiber. Applied Optics, 2006, 45 (27): 6914-6918. 2.
³ÂÕñÒË,ÍõÍ¢ÔÆ, ÏÄÒå±¾. ÈÛÈÚ¹âÏËÀ׶¶¯Ì¬ÐÎ×´º¯ÊýµÄÀíÂÛÓëʵÑéÑо¿. ¹âµç×Ó¼¤¹â£¬2005£¬16(11)£º1291-1296 3. Zhenyi Chen, Jie
Shi, Pang Pufei, and Wang Tingyun.
Measuring liquid-refractive-index based on a fiber-optic coupler. 2007 The
IET International Communication Conference on Wireless Mobile & Sensor
Networks Proceedings(CCWMSN¡¯07), Dec. 12-14, 2007, pp: 893-896 4. ³ÂÕñÒË£¬ÉòÓýÇ࣬ÍõÍ¢ÔƵÈ. µ¥Ä£¹âÏË1250-1650nm³¬Æ½Ì¹¿í´øñîºÏÆ÷. ¹âѧѧ±¨£¬2004£¬24(5)£º663-667 5.
Tingyun
Wang, Chen Zhenyi, Fufei
Pang. Improved silica fiber with enhanced ultraviolet transmission. Chinese
Optics Letters, 2006, 4(12): 687-689 6. ÍõÍ¢ÔÆ£¬³ÂÕñÒ˵ȣ®¸ßÐÔÄÜ×ÏÍâ¹âÏ˵ÄÃâÒßÖÆ×÷¼¼Êõ£®¹âµç×Ó¡¤¼¤¹â£¬2004, 15 £¨12£©£º1394-1396 7. ÍõÍ¢ÔÆ£¬³ÂÕñÒ˵ȣ®µ¥Ä£¹âÏ˽¥ÊŲ¨´«Êä·ÖÎö£®¹âµç×Ó¡¤¼¤¹â£¬2003£¬14£¨2£©£º136-139 8. Xinghu Fu, Zhenyi Chen, Qiang Guo, Fufei Pang, and Tingyun Wang. Investigation of a shape curve function for
a special solid coupled optical taper. Optical Engineering. 2010, 49(6):
065002-065002-7 9. ¸¶ÐË»¢£¬³ÂÕñÒË£¬¹ùÇ¿£¬ÅÓ·÷·É£¬ÍõÍ¢ÔÆ. Ö±ÏßÔ˶¯ÐÍÎÞÏß¹âͨÐÅÖÐÕñ¶¯¶Ô¹â½ÓÊÕ¹¦ÂʵÄÓ°Ïì·ÖÎö. ¹âѧѧ±¨, 2009, 29(9): 2368-2373 10. Hua Bai, Zhenyi Chen, Na Chen, Qiang Guo, Kun Zhang, Fufei Pang, Tingyun Wang. A biconical taper multi-mode fiber SERS
sensor. ACP2010 11. Kun Zhang, Zhenyi Chen, Na
Chen, Qiang Guo, Hua Bai, Fufei
Pang, Tingyun Wang. Raman scattering enhancement characteristic of Nb-doped silica fiber. ACP2010 12. Lin Liu, Zhenyi Chen, Tingyun Wang, Fufei Pang, Na
Chen, Chenglin Li. Surface-Enhanced Raman Scattering
Sensor Based on Fused Biconical Taper Fiber. 2009
Proc. of SPIE-OSA-IEEE Asia Communications and Photonics, SPIE Vol. 7634,
763402(2008) 13. Jianqing Lu, Zhenyi Chen, Fufei Pang, Tingyun Wang. Synthesis
and Characterization of Silver Sols for Fiber-optic Surface-enhancement Raman
Scattering. Proc. of SPIE. Vol. 7135, pp: 71 14. Qifan Yu£¬Zhenyi Chen, Xinghu Fu, Qiang Guo£¬Fufei Pang£¬Tingyun Wang£¬A novel receiving system based on
optical taper applied to wireless optical communication£¬APOC2008, 7136, 7136Z-1(2008) 15. Jianqing Lu, Zhenyi Chen, Fufei Pang, Tingyun Wang. Theoretical
Analysis of Fiber-Optic Evanescent Wave Sensors. 2007 The IET International Communication Conference on Wireless Mobile
& Sensor Networks Proceedings(CCWMSN¡¯07), Dec. 12-14, 2007, pp:
583-587 16.
Jie Shi, Zhenyi Chen, Yuqing Shen, and Qing Guo. Solution-concentration sensor using a fused
fiber-optic coupler. Proceedings of 2007 8th International
Conference in Electronic Measurement & Instruments, Aug. 16-18, 2007,
Vol. IV, pp: 4-178£4-181 17. Wang
Shuwen, Chen Zhenyi. A
theoretical Method of microstructured polymer
optical fibers with ring structures. 20th Congress of the
International Commission for Optics (ICO20), 2006. 18. »ÆÐÁÃú£¬³ÂÕñÒË£¬ÍõÍ¢ÔÆ. ¿ª»·ÈýÏËñîºÏÆ÷µÄ¹âÏ˹⿪¹ØµÄÀíÂÛ·ÖÎö. ¹âµç×Ó¼¤¹â£¬2004£¬15(7)£º795-798 |
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Professor Chen Zhenyi, Ph.D |
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Office£º |
107-1 Institute of Fiber Optics, Jiading Campus, Shanghai University |
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Mail Address£º |
807 Box, 20 Chengzhong
Rd, Shanghai 201800, People¡¯s Republic of China |
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Zip Code£º |
201800 |
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Phone£º |
86-21-69982731(O) |
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Email£º |
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URL£º |
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Education
and Professional Experiences: 1994-present, Professor, School
of Communication and Information Engineering, Shanghai University Standing Vice- director of
Institute of Fiber Optics Vice-director, Shanghai Key Lab.
of Special Fiber Optics (Shanghai University) 1982-1994, Associate Professor,
Institute of Fiber Optics, Shanghai University of Science and Technology 2007, Ph.D,
Material Science, School of Material Science and Engineering, Shanghai
University Research
Interest: Special
fiber optics technology and application Fiber optic sensors Fiber optic passive devices Optical communication Waveguide
optics Photoelectronics Nnonlinear fiber optics Academic
Accomplishments: Major research interests are
special fiber optics fabrication and
application, fiber optic sensors, fiber optic passive
devices, optical communication, waveguide optics, photoelectronics, nnonlinear fiber optics and so on. More than 10
projects in UV fibers, amplified fiber, fiber optic SERS sensor, mobile wireless optical communication, fiber
optic temperature/solution refractive-index/solution concentration sensor have
been finished. More than 50 technical research papers had been published.
Besides that, more than 30 patents had been applied for and more than 10 were
authorized. Received First/Second/Third Awards for Scientific and
Technological Advances from National Science and Technology Ministry and Shanghai
Science and Technology Ministry, respectively. Other
Professional Activities: Editor of Optical Communication
Research Research
Projects: 1.
National Natural Science Foundation of China, ¡°SERS nano-fiber-probe sysytem of application for
tesing cellular parameters¡± (61027015).
2011.01-2013.12, PI. 2.
National Natural Science Foundation of China, ¡°Study
of SERS technology based on the coupling optical fiber¡± (60677031). 2007.01-2009.12,
PI. 3.
Key project of Shanghai, ¡°Investigation for SERS spectrum instrument
of optical fiber probes¡± (10dz2210900). 2010.06-2012.05, PI. 4.
National Natural Science Foundation of China,
¡°The mechanism of semiconductor film inner-cladding fiber and its
transmission characteristics¡± (60477032). 2005.01-2007.12. 5.
National Natural Science Foundation of China, ¡°Study of sensing mechanism for temperature-insensitivity
cladding-mode-resonance special optical fiber¡± (60807031). 2009.01-2011.12. 6.
Doctoral Special Project of National Education
Ministry, ¡°Research of evanescent wave optical amplifier for nano-semiconductor-doped fiber¡± (20060280001). 2006.01-2008.12. 7.
Key Project of National Education Ministry, ¡°UV immunity technique for fabricating high-performance UV fiber of silica
glass¡±(204167),2004.06-2005.12. 8.
Key Fundamental Project of Shanghai, ¡°The high-sensitivity
coupling evanescent wave optical fiber sensor¡± (03JC14031), 2004.06-2005.12. 9.
Special Project of Shanghai Nano-Technology,
¡°Research and fabricating of the amplified inner-cladding fiber of nano-film¡± (0352nm019), 2004.06-2005.12. Research
Students Supervision: Master students: Huang Xinming, Wu Chunhua, Lu Wenjie, Wang Shuwen, Shi Jie, Lu jianqing, Liu Lin, Li Chengling, Zhang Kun, Bai Hua, Zhang Wei, Hu
Ling, Gu Qiang, Geng Qianqian Doctor students: Peng Guanglong Representative
Publications: 1. Chen Zhenyi. Study of a dynamic-shape-curve function for a
fused tapering optical fiber.
Applied Optics, 2006, 45 (27):
6914-6918. 2. Chen Zhenyi,Wang Tingyun, Yan Fang, Xia Yiben.
Theoretical and experimental investigation of dynamic-shap-curve
function for fused tapering optical fiber. Optoelectronics¡¤Laser£¬2005£¬16(11)£º1291-1296 (in Chinese). 3.
Zhenyi
Chen, Jie Shi, Pang Pufei,
and Wang Tingyun. Measuring liquid-refractive-index
based on a fiber-optic coupler. 2007 The IET International Communication
Conference on Wireless Mobile & Sensor Networks Proceedings(CCWMSN¡¯07),
Dec. 12-14, 2007, Shanghai, China, pp: 893-896. 4.
Chen
Zhenyi, Shen
Yuqing, Wang Tingyun, Yan
Fang, Xia Yiben. Super-flat-wideband single-mode
optical fiber couplers ranged from 1250 nm to 1650 nm. Acta
Optical Sinica£¬2004£¬24(5)£º663-667 (in Chinese). 5. Tingyun Wang, Chen Zhenyi, Fufei Pang. Improved
silica fiber with enhanced ultraviolet transmission. Chinese Optics Letters,
2006, 4(12): 687-689. 6. Tingyun Wang, Zhenyi Chen, et al. A UV immunity
technique for fabricating high-performance UV Fiber using silica glass. Optoelectronics¡¤Laser, 2004, 15 £¨12£©£º1394-1396 (in Chinese). 7.
Tingyun Wang, Zhenyi Chen,
et al. Analysis of Evanescent Wave Transmission on Single-mode
Optical Fibers. Optoelectronics¡¤Laser, 2003£¬14£¨2£©£º136-139 (in Chinese). 8.
Xinghu Fu, Zhenyi Chen, Qiang Guo, Fufei Pang, and Tingyun Wang. Investigation of a shape curve function for
a special solid coupled optical taper. Optical Engineering. 2010, 49(6):
065002-065002-7. 9.
Fu Xinghu£¬Chen Zhenyi£¬Guo Qiang£¬Pang Fufei£¬Wang Tingyun. Influence
of Vibration on Optical Receiving Power in RectilinearMobile
Wireless Optical Communucation. ACTA OPTICAL
SINICA, 2009, 29(9): 2368-2373. 10. Hua Bai, Zhenyi Chen, Na
Chen, Qiang Guo, Kun
Zhang, Fufei Pang, Tingyun
Wang.
A biconical
taper multi-mode fiber SERS sensor. ACP2010. 11. Kun Zhang, Zhenyi Chen, Na Chen, Qiang Guo, Hua
Bai, Fufei Pang, Tingyun Wang. Raman scattering
enhancement characteristic of Nb-doped silica fiber. ACP2010. 12. Lin Liu, Zhenyi Chen, Tingyun Wang,Fufei Pang, Na Chen, Chenglin Li. Surface-Enhanced
Raman Scattering Sensor Based on Fused Biconical
Taper Fiber. 2009 Proc. of SPIE-OSA-IEEE Asia Communications and Photonics,
SPIE Vol. 7634, 763402. 13. Jianqing Lu, Zhenyi
Chen, Fufei Pang, Tingyun
Wang. Synthesis and Characterization of Silver Sols for Fiber-optic
Surface-enhancement Raman Scattering. Proc. of SPIE. Vol. 7135, pp: 713549-1-7. 14. Qifan Yu£¬Zhenyi Chen, Xinghu
Fu, Qiang Guo£¬Fufei Pang£¬Tingyun Wang£¬A novel receiving system based on optical taper applied to
wireless optical communication£¬APOC2008, 7136,
7136Z-1(2008). 15. Jianqing Lu, Zhenyi Chen, Fufei Pang, Tingyun Wang. Theoretical Analysis of Fiber-Optic
Evanescent Wave Sensors. 2007 The IET
International Communication Conference on Wireless Mobile & Sensor
Networks Proceedings(CCWMSN¡¯07), Dec. 12-14, 2007, pp: 583-587. 16. Jie Shi, Zhenyi Chen, Yuqing Shen, and Qing Guo. Solution-concentration sensor using a fused
fiber-optic coupler. Proceedings of 2007 8th International
Conference in Electronic Measurement & Instruments, Aug. 16-18, 2007,
Vol. IV, pp: 4-178£4-181. 17. Wang Shuwen, Chen Zhenyi. A
theoretical Method of microstructured polymer
optical fibers with ring structures. 20th Congress of the
International Commission for Optics (ICO20), 2006. 18. HuangXinming£¬Chen Zhenyi£¬WuChunhua, Wang Tingyun. Theoretical analysis of fiber-optic switch using a three fiber-one
open loop coupler. Journal of Optoelectronics¡¤Laser£¬2004£¬15(7)£º795-798 (in Chinese). |