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酒色网百度影音 特聘教唆

发布日期:2024-09-04 11:16    点击次数:167

酒色网百度影音 特聘教唆

干系花样酒色网百度影音

通信地址:中国福建省福州市大学新区学园路2号福州大学机械工程及自动化学院    邮编:350108

Email:   sczhong@fzu.edu.cn

个东谈主简介

钟舜聪,二级教唆,英国曼彻斯特大学博士、英国帝国理工等大学博士后,2010年6月从国外引进归国,现任福州大学机械工程及自动化学院院长、校东谈主事处处长等职。比年来,先后入选国度百千万东谈主才工程、国度有了得孝顺中后生群众、国务院政府极端津贴群众、福建省高级次A类东谈主才、福建省高级次引进立异东谈主才、英国工程技艺学会会士(IET Fellow)、国际景象监测学会会士(ISCM Fellow)、国际声学与振动学会会士(IIAV Fellow)、群众前2%顶尖科学家(终生科学影响力名次榜)。担任福建省机械工程学会副理事长、福建省力学学会副理事长、福建省机械工程学会无损检测分会理事长、中国振动工程学会理事/故障会诊专委会委员、中国机械工程学会开拓智能运维分会常务委员等;担任《机械工程学报》等杂志编委、装备缱绻制造国度级实验教学示范中心主任、福建省太赫兹功能器件与智能传感重心实验室主任。

长久致力于于智能传感与会诊、光学和太赫兹仪器、无损检测和定量评价、精密仪器与智能测控等方面的络续。先后在MSSP、IEEE Trans.等发表论文260余篇(其中SCI收录130余篇,多篇ESI高被引论文),出书英文专著4部(其中1部获国度科学技艺学术文章出书基金资助)、获授权国度发明专利60余件、好意思国专利1件、英国专利1件和软著13件;制定国际、国度、场地和团体表率6件。赢得省部级科技奖5项(其中一等奖2项,排名第一)、福建省高等莳植教学效力迥殊奖(排名第一)。获国度基金委工材学部机械缱绻与制造学科十大优秀结题花式(世界10项)。获卢嘉锡优秀导师奖、宝钢优秀陶冶、福建省优秀立异创业导师、“福建省优秀博士学位论文”指点陶冶、中国机械工程学会“上银优秀机械博士论文奖”指点陶冶等。

主要学历及责任履历

2010年6月于今: 福州大学机械工程及自动化学院,院长(2019年5月起)

福州大学东谈主事处处长(2021年12月起)

福建省太赫兹功能器件与智能传感重心实验室主任

装备缱绻制造国度级实验教学示范中心主任

特聘教唆、博导、校学术委员会委员

2008年10月至2010年06月:英国利物浦大学电气电子工程系,博士后副络续员

2008年01月至2008年10月:上海交通大学机械与能源工程学院,讲师

2007年06月至2007年12月:英国帝国理工机械工程系、英国兰卡斯特大学微系统络续中心,博士后

2004年10月至2007年06月:英国曼彻斯特大学机械航空及土木系,博士络续生

2004年01月至2004年09月:香港理工大学应用物理系,助理络续员

2002年01月至2004年01月:深圳迈瑞生物医疗电子超声部研发部,镶嵌式系统工程师

1999年09月至2002年01月:汕头大学机械电子工程系,硕士络续生 (广东省“南粤优秀络续生”、优秀毕业络续生,全系第一)

1995年09月至2002年07月:汕头大学机械电子工程系,本科生(优秀本科毕业生,全系第一)

主要学术及社会兼职

英国工程技艺学会,会士(IETFellow)

国际景象监测学会,会士(ISCM Fellow)

国际声学与振动学会,会士(IIAV Fellow)

福建省机械工程学会无损检测分会,理事长

福建省机械工程学会,副理事长

福建省力学学会,副理事长

中国机械工程学会开拓智能运维分会,常务委员

中国振动工程学会理事/故障会诊专委会委员

华东理工大学中航商用发动机寿命展望技艺皆集立异中心,客座络续员

华东理工大学承压系统与安全莳植部重心实验室,客座络续员

《机械工程学报》编委

络续限制(络续课题)

1)超精密光学仪器:光刻制程超薄多层膜厚测量、硅/砷化镓/氮化镓等半导体材料纳米级的膜厚检测、手机屏幕叠层、自润滑涂层等;先进封装芯片名义三维形色测量、光学元件亚纳米级测量;碳化硅等级三代半导体材料的里面瑕疵检测;精密光学测振仪

2)太赫兹器件与系统:高局域太赫兹超材料、太赫兹器件、太赫兹名义等离子学、太赫兹脉冲成像系统

3)太赫兹脉冲成像:封装器件分层、叶片热障涂层、纤维复合材料、药物缓释控涂层

4)无损检测与定量评价(光学干系层析、太赫兹脉冲成像、红外光谱及成像、红外热成像、超声成像、超声导波、声学、振动、视觉等)、智能传感与会诊

5)信息信号处分与镶嵌式系统

承担科研课题情况

在研花式:

1)国度当然科学基金,主合手,非匀态厚热障涂层的太赫兹无损检测机理及定量评估络续,2023/01-2026/12

2)福建省科技首要专项花式,主合手,超精密光学元件亚名义瑕疵原位测量技艺,2022-2025

3)福厦泉国度自主立异示范区高端装备振噪检测与故障会诊协同立异平台花式,主合手,2022-2024

结题花式:

4)福建省技艺立异重心攻关及产业化花式,新式UPEP高分子合金衬垫自润滑滑动轴承产业化,福州大学慎重东谈主,2022-2023

5)国度当然科学基金,主合手,TGO孕育和微瑕疵演化的太赫兹定量无损评价机理偏激可靠性络续,2017-2020

6)福建省科技筹谋花式,糖尿病视网膜病变的低资本便携式光学会诊系统研发,2019-2022

7)华润燃气花式,城镇燃气管谈安全脱手与磨砺风险适度要害技艺于应用络续,2019-2021

8)企业横向花式,大型石油储罐安全磨砺与风险评价要害技艺络续与工程应用,2020-2022

9)企业横向花式,电站汽锅角焊缝超声相控阵检测工艺,2020-2022

10)厦门市特种开拓检测磨砺院课题,TOFD超声自动检测机器东谈主技艺络续,2018/01-2019/12

11)机械系统与振动国度重心实验室洞开课题,基于光学位感条纹的振动测量系统偏激应用络续,2018/01-2019/12

家庭伦理

12)福建省财政厅,超快激光和太赫兹工程立异团队树立经费,2016-2018

13)福建省凸起后生基金(更正资助筹谋),主合手,“超高温陶瓷复合材料涂层的定量无损评价络续”,2014-2017

14)卫生和经餬口育委员会科研基金,主合手,“高诀别率眼科光学干系层析成像仪的研发”,2013-2016,结题(论断:国际先进水平)

15)国度当然科学基金,主合手, “多层结构蠕变和微裂纹膨大活动的无损检测和定量评价”, 2011-13,结题(优秀)

16)莳植部高等学校博士学科点科研基金(博导类),主合手,“高功率太赫兹脉冲成像系统及玻璃纤维复合材料的瑕疵检测和评价络续”,2013-2016

17)福建省凸起后生基金,主合手,“基于光学干系层析和太赫兹成像的飞机复合材料的无损检测和定量评价”,2011-2014,结题(优秀)

18)厦门特种开拓磨砺院花式,主合手,“聚乙烯管谈商议的超声相控阵检测与瑕疵智能化识别络续”,2013-2014,结题

19)厦门特种开拓磨砺院花式,主合手,“基于红外热成像的聚乙烯管谈商议瑕疵检测及图像处分技艺络续”,2013-2014,结题

20)福州大学,重心学科“仪器科学与技艺”学科树立经费,2015-2017

21)厦门特种开拓磨砺院花式,主合手,基于超声红外热像法的奥氏体不锈钢焊缝瑕疵检测技艺,2015-2017

22)莳植部归国留学东谈主员启动基金,主合手,“结构故障会诊和信号处分络续”,2010–2012,结题

23)承压系统与安全莳植部重心实验室洞开基金,主合手,“膜基结构的无损检测及定量评价”,2011-13,结题

24)福州大学科研启动基金,主合手,“光学干系层析无损检测系统偏激应用络续”,2011-2013,结题

25)企业横向花式,技艺主合手,“硫化机的测试分析和故障会诊”,2013-2013,结题

26)福建省特种开拓磨砺院花式,主合手,“基于光学干系层析的无损检测系统在承压开拓中的络续与应用”,2010-2012,结题

27)科技部首要仪器开拓专项花式,主要参与,“高精度衡器载荷测量仪开发和应用”,2011-2016

28)国度当然科学基金酒色网百度影音,主要参与,“材料蠕变损害和微组织演化的非线性超声兰姆波评价”,2011-13,结题

29)福建省特种开拓磨砺院,主要参与,“口岸起重开拓动态参数检测与评价络续”09-11,结

30)福建省特种开拓磨砺院,主要参与,“远场涡流检测技艺络续与应用”2009-2011,结题

31)国度质检总局院科技筹谋花式,主要参与,“在役汽锅水冷壁管涡流检测技艺络续与应用”2009-2011,结题

32)英国政府科技计谋委员会(TSB)花式,主要参与,“运用太赫兹和红外干系层析及时在线监测和适度生物制药的坐褥经由”,结题

33)英国工业花式,主要参与,“基于超声导波在航空电力系统无损检测”,结题

34)英国工程和当然科学络续委员会(EPSRC)课题,主要参与,“无损检测的可靠性”,结题

35)英国曼彻斯特大学络续花式,主合手,“结构损害检测以及信号处分瓜代络续”,结题

36)香港立异科技基金(ITF)花式,主要参与,“汽车防盗系统”,结题

37)香港立异科技基金(ITF)花式,主要参与,“精密仪器的主动振动遮挡/适度”,结题

38)东芝ODM花式,主要参与,“全数字怀念B超医学会诊仪”,结题

39)莳植部高等学校主干陶冶资助筹谋花式,主要参与,“机械振动信号处分中一些要害表面的络续”,结题

40)国度当然科学基金,主要参与,“机械振动信号处分中的破裂频谱鼎新表面”,结题

出书论文(部分)

1)Y. Zhong, Y. Huang, S. Zhong, et. al., An ultra-broadband frequency-agile terahertz perfect absorber with perturbed MoS2 plasmon modes,Nanoscale, 2024

2)T Lin, Y Huang, S Zhong, et. al., Passive trapping of biomolecules in hotspots with all-dielectric terahertz metamaterials,Biosensors and Bioelectronics, 2024

3)L Chen, W Liang, S Zhong, et. al., Novel contactless torque sensor based on optical coherence,Optics and Lasers in Engineering, 174: 107983, 2024

4)Y Huang , Y Lan , S Zhonget. al., Design of Tunable Dual-band Terahertz Metamaterial Absorber with Liquid Crystal Integrated on-chip,IEEE Transactions on Plasma Science, 2024

5)Q Zeng, Y Huang, S Zhong, et.al., Manipulating multiple plasmon modes by coupling fields for broadband filtering in terahertz metamaterials,Optics & Laser Technology,168, 109981, 2024

6)Y Huang, Y Deng, J Lin, Q Zhang, S Zhong,Wavenumber calibration and dispersion compensation for Fourier domain optical coherence tomography by parameterized instantaneous frequency estimation method,Optics & Laser Technology,174, 110640, 2024

7)S.Zhong, L. Chen, W. Liang, Contactless torque sensors based on optical methods: A review,Optics and Lasers in Engineering, 173: 107832, 2024

8)C Zhao, X Lin, B Wang, J Zhu, C Guan, S Zhong, A multistable composite hinge structure,Thin-Walled Structures, 2024

9)B Wang, J Zhu, S Zhong, W Liang, C Guan, Space deployable mechanics: A review of structures and smart driving,Materials & Design, 2023

10)W Nsengiyumva, S Zhong, X Chen, AM Makin, L Chen, L Wu, L Zheng,Toward tailoring the mechanical and dielectric properties of short glass fiber‐reinforced epoxy composites,Polymer Composites, 45 (1), 535-554, 2024

11)C Guan, L Zhan, F Sun, S Yao, S Zhong, B Wang, Study on the heating mechanism and macro/micro properties of composite materials under microwave curing,Polymer Composites, 45 (2), 1405-1421, 2024

12)W Nsengiyumva, S Zhong*, et. al., Sensing and non-destructive testing applications of terahertz spectroscopy and imaging systems: State-of-the-art and state-of-the-practice,IEEE Transactions on Instrumentation and Measurement,2023

13)Z Ouyang, W Liang, X Yang, J Guo, Z Lai, J Lin, Q Zhang, S Zhong, High-sensitivity weighing sensor based on broadband optical coherence displacement measurement of a dual-beam elastic element,Measurement,216, 112922, 2023

14)W Tu, S Zhong, Q Zhang, Y Huang, Rapid diagnosis of corrosion beneath epoxy protective coating using non-contact THz-TDS technique,Nondestructive Testing and Evaluation, 1-16, 2023

15)Z Lai, Z Ouyang, S Zhong, W Liang, X Yang, J Lin, Q Zhang, J Li, Dynamic Characterization of Optical Coherence-Based Displacement-Type Weight Sensor,Sensors, 23 (21), 8911, 2023

16)W Nsengiyumva, S Zhong*, M Luo, B Wang, Terahertz Spectroscopic Characterization and Thickness Evaluation of Internal Delamination Defects in GFRP Composites,Chinese Journal of Mechanical Engineering, 2023, 36 (1), 1-21

17)Y Yang, Z Ren, C Zhou, Y Lin, L Hou, L Shi, S Zhong,3D‐Printed Robust Dual Superlyophobic Ti‐Based Porous Structure for Switchable Oil/Water Emulsion Separations,Advanced Functional Materials, 2023,2212262

18)W Tu, S Zhong, Q Zhang, Y Shen, A Incecik, Quality evaluation of organic protective paints using terahertz pulse imaging technology based on wavelet packet energy method,Ocean Engineering, 2023, 267, 113282

19)H Chen, F Yu, B Wang, C Zhao, X Chen, W Nsengiyumva, S Zhong, Elastic Fibre Prestressing Mechanics within a Polymeric Matrix Composite,Polymers, 2023, 15 (2), 431

20)Y Chen, D Li, Y Liu, L Hu, Y Qi, Y Huang, Z Zhang, T Chen, C Wang, S Zhong, J Ding,Optimal frequency determination for terahertz technology‐based detection of colitis‐related cancer in mice,Journal of Biophotonics, 2023

21)C Guan, T Chi, L Zhan, J Chen, B Wang, L Xie, S Zhong, Analysis of Deformation and Properties of Composite Melon Petals via Vibration Pretreatment—Microwave Compound Curing,Polymers, 15 (23), 4541, 2023

22)W Liang, Z Chen, J Zhong, H Liao, S Zhong, Multi-feature fusion-based TCA-WKNN cross-sensor fault diagnosis method for dynamic weighing,Measurement Science and Technology, 2023, 35(1): 015132

23)Y Deng, S Zhong, et. al., Thickness measurement of self-lubricating fabric liner of inner ring of sliding bearings using spectral-domain optical coherence tomography,Coating, 13 (4), 708, 2023

24)G Guo, S Zhong, Q Zhang, J Zhong, D Liu, Effect of Additional Mass on Natural Frequencies of Weight-Sensing Structures,Sensors, 23 (17), 7585, 2023

25)J Zhong, D Liu, S Chi, Z Tu, S Zhong, Vision-based fringe projection measurement system for radial vibration monitoring of rotating shafts,Mechanical Systems and Signal Processing,2022, 181, 109467

26)X Chen, S Chi, Y Lin, J Zhong, S Zhong, Y Zhang, J Zhong, Modal analysis of beam-like structures using multipoint dynamic testing vision system based on composite fringe pattern,Measurement Science and Technology, 2022, 34 (1), 015002

27)T Lin, Y Huang, S Zhong, Y Zhong, Z Zhang, Q Zeng, Y Yu, Z Peng, Field manipulation of electromagnetically induced transparency analogue in terahertz metamaterials for enhancing liquid sensing,Optics and Lasers in Engineering, 2022, 157, 107127

28)Z Zhang, Y Huang, S Zhong, T Lin, Y Zhong, Q Zeng, W Nsengiyumva, Y Yu, Z Peng, Time of flight improved thermally grown oxide thickness measurement with terahertz spectroscopy,Frontiers of Mechanical Engineering, 2022, 17 (4), 49

29)Y Zhong, Y Huang, S Zhong, T Lin, Z Zhang, Q Zeng, L Yao, Y Yu, Z Peng, Tamm plasmon polaritons induced active terahertz ultra-narrowband absorbing with MoS2,Optics & Laser Technology, 2022, 156, 108581

30)J Zhong, D Liu, S Wu, S Li, S Zhong, W Liang, Three-dimensional translation vibration measurement system based on linear array sensor and composite fringe pattern,Measurement Science and Technology, 2022, 33 (9), 095901

31)C Yang, B Wang, S Zhong, C Zhao, W Liang, On tailoring deployable mechanism of a bistable composite tape-spring structure,Composites Communications,2022, 32, 101171

32)JLin, S Zhong*, Q Zhang, J Zhong, W Nsengiyumva, Z Peng, Swept-Source Optical Coherence Vibrometer: Principle and Applications,IEEE Transactions on Instrumentation and Measurement,2022

33)W Nsengiyumva, S Zhong*, J Lin, Q Zhang, J Zhong, Y Huang, Advances, limitations and prospects of nondestructive testing and evaluation of thick composites and sandwich structures: A state-of-the-art review,Composite Structures,2021, 256, 112951

34)Z Ren, L Shen, H Bai, L Pan, S Zhong*, Constitutive model of disordered grid interpenetrating structure of flexible microporous metal rubber,Mechanical Systems and Signal Processing, 2021, 154, 107567

35)Hongwen Zhang, Pu Zhang, Jiwu Zhao, Yuan Liu, Yi Huang, Haowei Huang, Chen Yang, Yibo Zhao, Kaifeng Wu, Xianliang Fu, Shengye Jin, Yidong Hou, Zhengxin Ding, Rusheng Yuan, Maarten BJ Roeffaers, Shuncong Zhong*, Jinlin Long*,The Hole‐Tunneling Heterojunction of Hematite‐Based Photoanodes Accelerates Photosynthetic Reaction,Angewandte Chemie International Edition, 2021, 60,16009–16018

36)W Nsengiyumva, S Zhong*, M Luo, Q Zhang, J Lin,Critical insights into the state‐of‐the‐art NDE data fusion techniques for the inspection of structural systems,Structural Control and Health Monitoring, 2021, e2857

37)Walter Nsengiyumva, Shuncong Zhong*, Bing Wang1 Longhui Zheng, Zhenhao Zhang, Qiukun Zhang, Jianfeng Zhong, Manting Luo, Zhike Peng, Terahertz spectroscopic study of optical and dielectric properties of typical electrical insulation materials,Optical Materials,2021

38)H Yao, H Mei, W Zhang, S Zhong, X Wang, Theoretical and Experimental Research on Terahertz Metamaterial Sensor With Flexible Substrate,IEEE Photonics Journal, 2021, 14 (1), 1-9

39)Y Zhong, Y Huang, S Zhong*, T Lin, M Luo, Y Shen, J Ding, Tunable terahertz broadband absorber based on MoS2 ring-cross array structure,Optical Materials,2021,114, 110996

40)W Tu, S Zhong, M Luo, Q Zhang, Non-Destructive Evaluation of Hidden Defects Beneath the Multilayer Organic Protective Coatings Based on Terahertz Technology,Frontiers in Physics, 2021, 9, 304

41)G Zhu, F Huang, Z Dai, X Ju, S Zhong, X Wang, Reverse design of on-chip terahertz demultiplexers,Micromachines, 2021, 12 (9), 1093

42)T Lin, Y Huang, S Zhong, M Luo, Y Zhong, Y Yu, J Ding, Sensing Enhancement of Electromagnetically Induced Transparency Effect in Terahertz Metamaterial by Substrate Etching,Frontiers in Physics,9, 216

43)N. Zhou, S Zhong*, et al., Acoustic-excitation Optical Coherence Vibrometer for Real-time Microstructure Vibration Measurement and Modal Analysis,IEEE Transactions on Instrumentation and Measurement,2020, 69(9), 7180 - 7190

44)B. Fang, S Zhong*, et al., Full range line-field optical coherence tomography for high-accuracy measurements of optical lens,IEEE Transactions on Instrumentation and Measurement,2020, 67(6), 1434 - 1445

45)Y. Huang, S. Zhong*, et al., Terahertz Plasmonic Phase-Jump Manipulator for Liquid Sensing,Nanophotonics, 2020, 9(9), 3011–3021

46)Q Zhang, S Zhong*, et al., Full-range Fourier-domain optical coherence tomography based on Mach–Zehnder interferometer,Optics and Lasers in Engineering, 2020, 124, 105794

47)M Luo, S Zhong*, L Yao, W Tu, W Nsengiyumva, W Chen,Thin thermally grown oxide thickness detection in thermal barrier coatings based on SWT-BP neural network algorithm and terahertz technology,Applied optics59 (13), 4097-4104

48)Q. Zhang, S Zhong*, et al., Anti-noise frequency estimation performance of Hanning-windowed energy centrobaric method for optical coherence velocimeter,Optics and Lasers in Engineering, 2020, 134, 106250

49)Y Huang, S Zhong*, T Shi, YC Shen, D Cui, HR-Si prism coupled tightly confined spoof surface plasmon polaritons mode for terahertz sensing,Optics Express,2019, 27 (23), 34067-34078

50)Y. Huang, S. Zhong*, et al., Trapping waves with tunable prism-coupling terahertz metasurfaces absorber,Optics Express,2019, 27 (18), 25647-25655.

51)Q Zhang, S Zhong*, J Lin, J Zhong, Y Yu, Z Peng, S Cheng, High-performance optical coherence velocimeter: theory and applications,Optics Express27 (2), 965-979, 2019

52)J Zhong, S Zhong*, Q Zhang, S Liu, Z Peng, N Maia, Real-time three-dimensional vibration monitoring of rotating shafts using constant-density sinusoidal fringe pattern as tri-axial sensor,Mechanical Systems and Signal Processing115, 132-146, 2019

53)Yi Huang, Shuncong Zhong*, Yao–chun Shen, Yingjie Yu, and Daxiang Cui,Terahertz phase jumps for ultra-sensitive graphene plasmon sensing,Nanoscale, 10 (47), 22466-22473, 2018

54)Jianfeng Zhong, Shuncong Zhong*, Qiukun Zhang, Nuno Maia, Yaochun Shen, Shulin Liu, Yingjie Yu, and Zhike Peng, Vision-based system for simultaneous montoring of shaft rotational speed and axial vibration using non-projection composite fringe pattern,Mechanical Systems and Signal Processing, 120, 765-776, 2019

55)J Zhong, Shuncong Zhong*, Q Zhang, Z Peng, Measurement of instantaneous rotational speed using double-sine-varying-density fringe pattern,Mechanical Systems and Signal Processing103, 117-130, 2018

56)Q Zhang, Shuncong Zhong*, J Zhong, X Fu, Ultrahigh-Accuracy Measurement of Refractive Index Curves of Optical Materials using Interferometry Technology,Measurement, 122, 40-44, 2018

57)W Tu, Shuncong Zhong*, A Incecik, X Fu, Defect feature extraction of marine protective coatings by terahertz pulsed imaging,Ocean Engineering, 173, 58-67, 2019

58)S Zhong, Progress in terahertz nondestructive testing: A review,Frontiers of Mechanical Engineering,14(3), 273–281, 2019

59)Jiewen Lin, Shuncong Zhong*, Qiukun Zhang, Weiqiang Chen, Five-frame Variable Phase-shifting Method for Full-Range Spectral-Domain Optical Coherence Tomography,Applied Sciences, 2018, 8(9), 1580

60)M Luo, S Zhong, Non-Contact Measurement of Small-Module Gears Using Optical Coherence Tomography,Applied Sciences8 (12), 2490, 2018

61)Y Huang, Shuncong Zhong*, Y Shen, L Yao, Y Yu, D Cui, Graphene/Insulator Stack Based Ultrasensitive Terahertz Sensor with Surface Plasmon Resonance,IEEE Photonics Journal, 9 (6), 1-11, 2017

62)Yi Huang, Shuncong Zhong*, Haizi Yao, and Daxiang Cui, Tunable Terahertz Plasmonic Sensor Based on Graphene/Insulator Stacks,IEEE Photonics Journal, 9 (1), 1-10, 2017

63)Shuncong Zhong*, J. Zhong, Q.Zhang, N. Maia, Quasi-optical coherence vibration tomography technique for damage detection in beam-like structures based on auxiliary mass induced frequency shift,Mechanical Systems and Signal Processing, 93, 241-254, 2017

64)Jianfeng Zhong, Shuncong Zhong*,Qiukun Zhang,Quasi‐OCVT technique for response‐only experimental modalanalysis of beam‐like structures,Structural Control and Health Monitoring, 24 (11), 2017

65)H Yao, Shuncong Zhong*, H Yi, D Cui, CL Pan, Handedness-Switchable Optical Chirality in One-Dimensional Periodic Plasmonic-Grooves for Circular Dichroism and Simultaneous Refractive Index Sensing,IEEE Photonics Journal9 (3), 1-9, 2017

66)Haizi Yao, Shuncong Zhong*, “Handedness-switchable chiral field in the one-dimensional metal grooves for plasmonic circular dichroism spectroscopy”,Journal of Optics, 19 (5), 055001, 2017

67)Y Lin, H Yao, X Ju, Y Chen, S Zhong, X Wang,Free-standing double-layer terahertz band-pass filters fabricated by femtosecond laser micro-machining,Optics Express25 (21), 25125-25134, 2017

68)Jianfeng Zhong, Shuncong Zhong*, Qiukun Zhang,Two-dimensional optical coherence vibration tomography for low-frequency vibration measurement and response-only modal analysis,Mechanical Systems and Signal Processing, 79, 65-71, 2016

69)J. Zhong, Shuncong Zhong* et al., Vibration monitoring using non-projection quasi-interferogram fringe density enhanced by spectrum correction method,  Measurement Science and Technology, 28(1):015903 , 2016

70)Wanli Tu, Shuncong Zhong*, Yaochun Shen1, and Atilla Incecik, Nondestructive Testing of Marine Protective Coatings Using Terahertz Waves with Stationary Wavelet Transform,Ocean Engineering, 111, 582-592,2016

71)Haizi Yao, Shuncong Zhong*,Wideband circularly polarized vortex surface modes on helically grooved metal wires,IEEE Photonics Journal, 7 (6), 1-7, 2015

72)Shuncong Zhong*, Qiukun Zhang, Subnanoscale-displacement-resolution Calibration of Piezoelectric Actuators using Enhanced Optical Coherence Tomography,Sensors and Actuators A: physical, 233,42-46,2015

73)H Yao, Shuncong Zhong*, W Tu,Performance analysis of higher mode spoof surface plasmon polariton for terahertz sensing,Journal of Applied Physics117 (13), 133104, 2015

74)Jianfeng Zhong, Shuncong Zhong*, Qiukun Zhang,“Two-dimensionalopticalcoherencetomography for real-timestructuraldynamical characterization”,Optics and Lasers in Engineering,66, 74-79,2015

75)H. Lin, R. May, M. Evans, Shuncong Zhong, L. Gladden, Y. Shen, J. Zeitler, Impact of Processing Conditions on Inter-tablet Coating Thickness Variations Measured by Terahertz In-Line Sensing,Journal of Pharmaceutical Sciences, 104(8), 2513-22, 2015

76)Haizi Yao, Shuncong Zhong*, Higher-order mode spoof SPP ofperiodicgrooves for high sensitive terahertz sensing,Optics Express,2014, 22(21): 25149-25160.

77)Wanli Tu,Shuncong Zhong*, Yaochun Shen, Qing Zhou and Ligang Yao,FDTD-Based Quantitative Analysisof Terahertz Wave Detection for MultilayeredStructures,Journal of the Optical Society of America A,31(10), 2285-2293 (2014)

78)Haizi Yao, Shuncong Zhong*,“Plasmonic corrugated cylinder-cone terahertz probe”,Journal of the Optical Society of America A, 31(8),1856-1860, 2014

79)Haizi Yao, Shuncong Zhong*, “Frequency dependent circular-polarization of terahertz chiral spoof surface plasmon polariton on helically grooved metallic wire”,Optics Communications, 2015

80)Shuncong Zhong, Y.Shen, L. Ho, R. May, J. Zeitler, M. Evans, P. Taday, M. Pepper, T. Rades, K. Gordon, R. Muller, and P. Kleinebudde, “Nondestructive quantification of pharmaceutical tablet coatings using terahertz pulsed imaging and optical coherence tomography”,Optics and Lasers in Engineering, 49(3), 361-365, 2011.

81)Shuncong Zhong, Hao Shen, and Yaochun Shen, “Real-time monitoring of structural vibration using spectral-domain optical coherence tomography”,Optics and Lasers in Engineering, 49(1), 127-131, 2011.

82)R.K. May, M. J. Evans, Shuncong Zhong, I. Warr, L.F. Gladden, Y.C. Shen and J.A. Zeitler, Terahertz in-line sensor for direct coating thickness measurement of individual tablets during film coating in real-time,Journal of Pharmaceutical Sciences, 100(4), 1535-1544, 2011

83)R.K. May, K. Su, L. Han, Shuncong Zhong, J. A. Elliott, L. F. Gladden, M. Evans, Y. C. Shen, and J. A. Zeitler, Hardness and Density Distributions of Pharmaceutical Tablets Measured by Terahertz Pulsed Imaging,Journal of Pharmaceutical Sciences(DOI: 10.1002/jps.23560)

84)Shuncong Zhong, S Olutunde Oyadiji, “Crack sensitivity analysis of sampling interval for damage detection by wavelet transform”,Structural Control and Health Monitoring, 20(1), 2013

85)Shuncong Zhong, S. O. Oyadiji, “Detection of cracks in simply-supported beams by continuous wavelet transform of reconstructed modal data”,Computers and Structures, 89,127-148, 2011.

86)Shuncong Zhong, S.O.Oyadiji, “Crack Detection in Simply Supported Beams using Stationary Wavelet Transform of Modal Data”,Structural Control and Health Monitoring, 18(2), 169-190, 2011.

87)Shuncong Zhong, S Olutunde Oyadiji, “Analytical predictions of natural frequencies of cracked beams with a traversing auxiliary mass”,Journal of Sound and vibration, 311, 328-352, 2008

88)Shuncong Zhong, S Olutunde Oyadiji, “ Response-only method for damage detection of beam-like structures using high accuracy frequencies”,Journal of Sound and Vibration, 311, 1075-1099, 2008

89)Shuncong Zhong, S Olutunde Oyadiji, “Identification of cracks in beams with auxiliary mass spatial probing by stationary wavelet transform”,Trans. of ASME, Journal of Vibration and Acoustics, 30, 1-14, 2008

90)Shuncong Zhong, S Olutunde Oyadiji, “Crack detection in simply-supported beams without modal parameter using stationary wavelet transform”,Mechanical Systems and Signal Processing, 21(4) , 1853-1884, 2007

91)周宁,钟舜聪,张秋坤,等.微梁模态分析的声激发光学干系振动层析系统.仪器仪容学报,2018,39(12):47-54.

92)朱国锋,戴圳镕,居学尉,钟舜聪等.基于逆向缱绻的片上太赫兹解复用器和光栅耦合器.光学学报,2022,42(9):162-169.

93)方波,钟舜聪,林杰文,等.结构模态分析的二维频域光学干系振动层析瓜代.振动工程学报,2020,33(2):356-363.

94)丁康,钟舜聪.通用的破裂频谱相位差鼎新瓜代.电子学报,2003,31(1):142-145.

95)钟剑锋,钟舜聪,彭志科.位感条纹三维振动测量旨趣及践诺络续[J].机械工程学报,2019, 55(14): 19-29.

96)徐帖,钟剑锋,钟舜聪*,张秋坤,彭志科,等.基于视觉位感条纹的转轴裂纹瑕疵检测[J].机械工程学报, 2022, 58(20): 304-311.

97)邹栋,钟舜聪*,等.城轨交通弓网系统至极磨损近况分析与防治技艺络续[J].机械工程学报, 2023, 59(10): 152-178.

98)徐亚飞,王星雨,钟舜聪,张留洋,陈雪峰.基于疏淡暗示的叶片热障涂层太赫兹检测回波信号定位分离瓜代[J].机械工程学报, 2023, 59(8): 9-19.

99)曾秋铭,黄异,钟舜聪,等,飞秒激光直写高Q值太赫兹柔性金属超材料,机械工程学报, 2024,委用.

100)张平,钟舜聪*,张秋坤,等.热障涂层折射率与厚度的太赫兹无损检测[J].机械工程学报, 2021, 57(20): 47-56.

获奖情况

2011年获福建省凸起后生基金

2012年入选福建省引进高级次创业立异东谈主才

2013年获福建省后生五四奖章(团队慎重东谈主)

2014年再获福建省凸起后生基金(更正资助筹谋)

2014-2019年获博士络续生国度奖学金(指点陶冶,结合6年)

2015年获卢嘉锡优秀络续生奖(指点陶冶)

2016年获卢嘉锡优秀络续生奖(指点陶冶)

2017年获卢嘉锡优秀导师奖(世界5东谈主)

2017年获福建省科技非常二等奖(排名第一)

2018年获中国特种开拓磨砺协会科学技艺奖

2019年获上银优秀机械博士论文奖(指点陶冶)

2019年获挑战杯福建省迥殊奖、世界大学生课外学术科技作品竞赛二等奖(指点陶冶)

2020年入选“嘉锡学者”特聘教唆

2020年“互联网+”福建省金奖、中国国际“互联网+”大学生立异创业大赛银奖(指点陶冶)

2020年获福建省科技非常一等奖(排名第一)

2021年“互联网+”福建省金奖、中国国际“互联网+”大学生立异创业大赛银奖(指点陶冶)

2021年入选群众前2%顶尖科学家(终生科学影响力名次榜)

2022年获评国度当然科学基金委机械学科2020年度优秀结题花式(世界6项面上、4项青基花式)

2022年福建省优秀博士学位论文(指点陶冶)

2022年获福建省教学效力迥殊奖(排名第一)

2023年获福建省科技非常一等奖(排名第一)

2023年获挑战杯福建省迥殊奖(指点陶冶)

2023年获宝钢莳植奖2023年度优秀陶冶奖酒色网百度影音