張斌(中山大學電子與信息工程學院副教授)

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張斌,男,山東人,工學博士,中山大學電子與信息工程學院副教授。

基本介紹

  • 中文名:張斌
  • 畢業院校:中山大學
  • 學位/學歷:博士
  • 專業方向:材料物理與化學
  • 任職院校:中山大學
人物經歷,研究方向,科研項目,授課課程,科研成果,

人物經歷

2011年畢業於中山大學材料物理與化學專業(碩博),師從章明秋、陳旭東教授,獲工學博士學位;先後跟隨南洋理工大學唐定遠教授(@江蘇師大)、澳大利亞國立大學Prof. Barry Luther-Davies、香港理工大學譚華耀教授從事科研工作。2017年進入中山大學電子與信息工程學院。

研究方向

硫系新材料平台的光信息處理器件與集成晶片:
  1. 硫系材料的物化性能研究:硫系傳輸材料、硫系相變材料結構剪裁與性能調控;
  2. 硫系基異質片上集成器件加工工藝;複合波導、微腔、超表面結構
  3. “可調控光信號產生與放大”集成晶片:克爾光頻梳、超快光信號處理、微波光子信號產生與處理

科研項目

  1. 國家自然科學基金面上項目(2020-2023):基於片上硫系微環的高性能光頻梳產生與調控(主持)
  2. 科技部“寬頻通信與新型網路”重點專項(2019-2022):基於新型光纖、新放大高速光傳輸技術及系統驗證(核心,承擔任務-新型增益光纖和放大器)
  3. 廣東省重點領域“新一代通信與網路”重大研發計畫(2019-2021):光子-無線融合的分散式5G系統關鍵技術(核心:承擔任務-高品質硫化物-氮化矽複合波導器件)
  4. 廣東省珠江人才計畫本土創新科研團隊(2018-2023):光電信息互聯器件與晶片新原理新技術基礎研究(核心,承擔任務-超高速全光信號處理器件)
  5. 廣東省自然科學基金面上項目(2020-2021):主持
  6. 廣州市基礎與套用基礎研究專題一般性項目(2020-2022):超寬頻高亮度集成化的片上超連續光源產生與調控 (主持)
  7. 廣州市科技計畫重點項目(2019-2021):有源控制超高速光場調控關鍵技術研究(核心:承擔任務-高品質硫系相變材料基集成晶片)
  8. 中山大學“三大”重點培育項目(2018-2020), 超寬頻片上光源(主持)
  9. 國家自然科學青年基金(2014-2016):表面等離子增強螢光光譜表征聚合物聚集態結構(主持)
  10. 江蘇省南京科技領軍型人才321計畫(2015-2018):光功能特種材料的研發(主持)
  11. 江蘇省徐州市雙創人才(2014-2017):高性能硫系玻璃製備技術開發與套用(主持)
  12. 江蘇省高校自然科學面上項目(2013-2015)螢光光譜表征聚合物聚集態結構(主持)
  13. 江蘇省徐州市科技局自然科學基金(2016-2018)紅外硫系微球氣體感測器(主持)
  14. **重點項目(2014-2016):
  15. **重點項目(2015-2017):

授課課程

本科生:光電子材料、光電器件可靠性分析、大學物理實驗、行業認知
研究生:紅外光學材料

科研成果

圍繞“開發高品質中紅外材料與片上器件,並以此為平台開展紅外波段的光源、信號處理和成像”等相關基礎和套用技術研究,發表SCI文章超40篇,授權發明專利9項,獲得國家及省自然科學基金、科技部及廣東省重大項目、軍工重點項目等項目資助;同時,積極推進產業化套用,獲得中國創新創業大賽廣東賽區決賽團隊組第一名、廣州市創新創業大賽一等獎、江蘇省市級科技領軍型人才、雙創人才等榮譽稱號。
2015年至今:
  1. Z. Chen, L. Wan*, J. Song, J. Pan, Y. Zhu, Z. Yang, W. Liu, J. Li, S. Gao, Y.-S. Lin, B. Zhang*, and Z. Li*, "Optical, mechanical and thermal characterizations of suspended chalcogenide glass microdisk membrane,"Optics Express, 27[11] 15918-25 (2019).
  2. J. Tu, Z. Liu*, S. Gao, Z. Wang, J. Zhang, B. Zhang, J. Li, W. Liu, H. Tam, and Z. Li, "Ring-core fiber with negative curvature structure supporting orbital angular momentum modes," Optics Express, 27[15] 20358-72 (2019)
  3. B. Yu, Y. Chen, J. Pan, B. Zhang, F. Li, L. Wan, X. Guo, J. Li*, and Z. Li*, "Silica-microsphere-cavity-based microwave photonic notch filter with ultra-narrow bandwidth and high peak rejection," Opt Lett 44[6] 1411-14 (2019).
  4. Z. Lin, Z. Chen, B. Zhang, F. Li, J. Li, X. Guo*, and Z. Li*, "Wideband and low-error microwave frequency measurement using degenerate four-wave mixing-based nonlinear interferometer," Opt Lett 44[7] 1848-51 (2019).
  5. H. Ren, Y. Yu, C. Zhai, B. Zhang, A. Yang, K. Tian, X. Feng, Z. Yang*, P. Wang, and B. Luther-Davies, "Chalcogenide glass fibers with a rectangular core for polarized mid-infrared supercontinuum generation," J Non-Cryst Solids, 517 57-60 (2019).
  6. Z. Xu, R. Xu, J. Sha, B. Zhang, Y. Tong, and Y.S. Lin*, "Infrared metamaterial absorber by using chalcogenide glass material with a cyclic ring-disk structure," OSA contimuum 1[2] 573-80 (2018).
  7. J. Tu, B. Zhang*, Z. Liu, X. Zhou, K. Long, Z. Li, C. Lu, and C. Yu, "Chalcogenide-Glass Nested Anti-Resonant Nodeless Fibers in Mid-Infrared Region," Journal of Lightwave Technology, 36[22] 5244-53 (2018).
  8. S. S. Qi, B. Zhang*, C. C. Zhai, Y. C. Li, A. P. Yang, Y. Yu, D. Y. Tang, Z. Y. Yang*, and B. Luther-Davies, "High-resolution chalcogenide fiber bundles for longwave infrared imaging," Opt Express 25 (21),; 26160-26165 (2017).
  9. B. Zhang, Y. Yu, C. C. Zhai, S. S. Qi, Y. W. Wang, A. P. Yang, X. Gai, R. P. Wang, Z. Y. Yang*, and B. Luther-Davies, "High Brightness 2.2-12 mu m Mid-Infrared Supercontinuum Generation in a Nontoxic Chalcogenide Step-Index Fiber," J Am Ceram Soc 99 (8), 2565-2568 (2016).
  10. W. Guo, B. Zhang*, C. C. Zhai, S. S. Qi, Y. Yu, A. P. Yang, L. Li, Z. Y. Yang, R. P. Wang, D. Y. Tang, G. M. Tao, and B. Luther-Davies, "Fabrication and Application of Small Core Chalcogenide Glass Fibers in Nonlinear Optics," J Inorg Mater 31 (2),; 180-184 (2016).
  11. Q. Y. Liu, B. Zhang*, S. S. Qi, Y. C. Li, X. L. Fan, Y. G. Zhao*, W. Zhou, and D. Y. Shen, "Integration of helicity-control and pulse-modulation for vortex laser based on a black phosphorus plate," Opt Express 24 (26),; 30031-30037 (2016).
  12. B. Zhang, C. C. Zhai, S. S. Qi, W. Guo, Z. Y. Yang*, A. P. Yang, X. Gai, Y. Yu, R. P. Wang, D. Y. Tang, G. M. Tao, and B. Luther-Davies, "High-resolution chalcogenide fiber bundles for infrared imaging," Opt Lett 40 (19), 4384-4387 (2015).
  13. B. Zhang, W. Guo, Y. Yu, C. C. Zhai, S. S. Qi, A. P. Yang, L. Li, Z. Y. Yang*, R. P. Wang, D. Y. Tang, G. M. Tao, and B. Luther-Davies, "Low Loss, High NA Chalcogenide Glass Fibers for Broadband Mid-Infrared Supercontinuum Generation," J Am Ceram Soc 98 (5),; 1389-1392 (2015).
  14. Y. Yu*, B. Zhang*, X. Gai, C. C. Zhai, S. S. Qi, W. Guo, Z. Y. Yang, R. P. Wang, D. Y. Choi, S. Madden, and B. Luther-Davies, "1.8-10 mu m mid-infrared supercontinuum generated in a step-index chalcogenide fiber using low peak pump power," Opt Lett 40 (6),; 1081-1084 (2015).【high cited:76】
  15. 翟誠誠,張斌*,祁思勝,郭威,楊志勇,楊安平,張鳴傑,楊艷,余懿,王榮平,陶光明,唐定遠,Barry Luther-Davies,柔性硫系玻璃光纖傳像束的製備及性能研究,光學學報,2015,(08):79-84.
  16. Qiu J.; Yang A*.; Zhang M.; Li L.; Zhang B.; Tang D.; Yang Z., Ga2S3-Sb2S3-CsI chalcohalide glasses for mid-infrared applications, Journal of the American Ceramic Society, 100(11), pp 5107-5112, 2017.
  17. Zhang M.; Yang A.; Peng Y.; Zhang B.; Ren H.; Guo W.; Yang Y.; Zhai C.; Wang Y.; Yang Z*.; Tang D., Dy3+-doped Ga-Sb-S chalcogenide glasses for mid-infrared lasers, Materials Research Bulletin, 70, 55-59, 2015
  18. A. P. Yang, J. H. Qiu, M. J. Zhang, H. Ren, C. C. Zhai, S. S. Qi, B. Zhang, D. Y. Tang, and Z. Y. Yang*, "Mid-infrared luminescence of Dy3+ ions in modified Ga-Sb-S chalcogenide glasses and fibers," Journal of Alloys and Compounds 695, 1237-1242 (2017).
  19. H. D. Song, Y. Liu*, B. Zhang, K. Z. Tian, P. P. Zhu, H. Lu, and Q. Tang, "Study of in vitro RBCs membrane elasticity with AOD scanning optical tweezers," Biomed. Opt. Express 8 (1), 384-394 (2017).
  20. Y. Yang, Z. Y. Yang*, P. Lucas*, Y. W. Wang, Z. J. Yang, A. P. Yang, B. Zhang, and H. Z. Tao, "Composition dependence of physical and optical properties in Ge-As-S chalcogenide glasses," J Non-Cryst Solids 440, 38-42 (2016).
  21. A. P. Yang, M. J. Zhang, L. Li, Y. W. Wang, B. Zhang, Z. Y. Yang*, and D. Y. Tang, "Ga-Sb-S Chalcogenide Glasses for Mid-Infrared Applications," J Am Ceram Soc 99 (1), 12-15 (2016).
  22. M. J. Zhang, A. P. Yang*, Y. F. Peng, B. Zhang, H. Ren, W. Guo, Y. Yang, C. C. Zhai, Y. W. Wang, Z. Y. Yang, and D. Y. Tang, "Dy3+-doped Ga-Sb-S chalcogenide glasses for mid-infrared lasers," Materials Research Bulletin 70, 55-59 (2015).
  23. Y. Yang, B. Zhang, A. P. Yang, Z. Y. Yang, and P. Lucas*, "Structural Origin of Fragility in Ge-As-S Glasses Investigated by Calorimetry and Raman Spectroscopy," Journal of Physical Chemistry B 119 (15), 5096-5101 (2015).
  24. R. P. Wang*, K. L. Yan, M. J. Zhang, X. Shen, S. X. Dai, X. Y. Yang, Z. Y. Yang, A. P. Yang, B. Zhang, and B. Luther-Davies, "Chemical environment of rare earth ions in Ge28.125Ga6.25S65.625 glass-ceramics doped with Dy3+," Appl Phys Lett 107 (16), (2015).
  25. 張鳴傑,楊安平*,張斌,任和,郭威,楊艷,翟誠誠,王雨偉,楊志勇,唐定遠,Dy~(3+)摻雜Ga-Sb-S玻璃的3~5μm發光研究,中國雷射,2015,(08):204-210.
  26. 張斌,楊志勇,任和,張鳴傑,章健,唐定遠. 一種高純低損耗硫系玻璃的製備方法[P]. 中國發明專利:CN103332851A,2013-10-02.(授權)
  27. 張斌,楊志勇,張鳴傑,翟誠誠,祁思勝,任和,楊安平,唐定遠. 一種高光學均勻性硫系玻璃的製備方法[P]. 中國發明專利:CN105236710A,2016-01-13.(授權)
  28. 張斌,楊志勇,翟誠誠,祁思勝,郭威,任和,張鳴傑,楊安平,唐定遠. 柔性高解析度紅外硫系玻璃光纖傳像束及製備方法[P]. 中國發明專利:CN104181636A,2016-12-03.(授權)
  29. 張斌,楊志勇,李雷,翟誠誠,祁思勝,任和,楊安平,唐定遠. 一種高亮度超寬頻中紅外超連續譜光源[P]. 中國發明專利:CN105470796A,2016-04-06.(授權)

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