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张洁

发布时间:2018-01-06 阅读量:

张洁 教授,博士生导师

人才计划:重庆市杰出青年基金(2019年),suncitygroup太阳新城官网领军人才计划(2018年)

1.个人简介

受教育经历

2004/03-2006/12,suncitygroup太阳新城官网,suncitygroup太阳新城官网,攻读博士学位

2002/09-2004/02,suncitygroup太阳新城官网,suncitygroup太阳新城官网,攻读硕士学位(直博)

1998/09-2002/07,suncitygroup太阳新城官网,suncitygroup太阳新城官网,攻读学士学位

研究工作经历

2013.09-至今,suncitygroup太阳新城官网,suncitygroup太阳新城官网,教授

2007/09-2013.09 suncitygroup太阳新城官网,suncitygroup太阳新城官网,副教授

2009/01-2009/12,美国加州大学伯克利分校,机械系,访问学者

2007/02-2010/12,suncitygroup太阳新城官网,suncitygroup太阳新城官网,博士后

2005/07-2007/09,suncitygroup太阳新城官网,suncitygroup太阳新城官网,助教

讲授课程:《物理光学》(本科生),《信息光学》(研究生)

2. 研究方向

近年来主要从事光微纳器件及系统、新型拉曼光谱仪器、纳米材料表面增强拉曼方面的研究。在《Carbon》、《Optics Express》、《Analyst》、《Plasmonics》等期刊发表相关学术论文30余篇,申请和获得发明专利10余项。作为项目负责人主持/完成了国家自然科学基金4项;国防科技创新特区项目1项;重庆市自然科学基金5项;全国博士后基金1项等纵向科研项目15项。

A.主持科研项目

1.         国家自然科学基金面上项目,61875024,基于PCF-CNTs-AgNPs的全光纤表面增强拉曼散射气体检测关键技术研究,2019/01-2022/1267万元,在研,主持。

2.         国家自然科学基金面上项目,61376121,基于金纳米粒子修饰碳纳米管阵列三维结构的光流控SERS微系统研究,2014/01-2017/1282万元,已结题,主持。

3.         国家自然科学基金面上项目,60976084,基于MEMS光栅光调制器线阵的近红外光谱监测仪研究,2010/01-2010/1210万元,已结题,主持。

4.         国家自然科学基金青年基金项目,60708017,面向显示基于MEMS光栅平动式光调制器基础理论和关键技术研究,2008/01-2010/1224万元,已结题,主持。

5.         国防科技创新特区项目,2019/09-2010/0850万元,在研,主持。

6.         重庆市杰出青年基金,面向现场快速检测的微型光谱系统,2020/01-2022/12,50万元,在研,主持。

7.         重庆市自然科学基金重点项目,CSTC2015JCYJBX 0034,石墨烯复合材料表面增强拉曼散射,2016/01-2018/1220万元,在研,主持。

8.         suncitygroup太阳新城官网A类人才计划,cqu2018CDHB1A07,全光纤表面增强拉曼散射气体检测关键技术研究,2018/07-2021/0660万元,在研,主持。

9.         重庆市自然科学基金, CSTC2011BB2076、碳纳米管阵列/薄膜器件的光学特性机理和实验研究,2011/07-2014/065万元,已结题,主持。

10.     重庆市自然科学基金,CSTC2009BB3352,基于MEMS光调制器的光谱分析关键技术研究、2009/08-2010/093万元,已结题,主持。

11.     全国博士后基金,20070410773,基于MEMS新型光栅平动式光调制器基础理论和关键技术研究,2007/01-2008/123万元,已结题,主持。

12.     重庆市自然科学基金,CSTC2007BB2110,基于MEMS反射/漫射光调制器关键技术研究、2006/09-2008/083万元,已结题,主持。

13.     中央高校面上项目,106112013CDJZR120003,基于光流控技术的三维有序碳纳米管/金纳米粒子复合结构SERS研究,2013/04-2015/035万元,已结题,主持。

14.     中央高校重点项目,106112013CDJZR125502,金属纳米粒子/碳纳米管拉曼增强机理和实验、2013/01-2014/1220万元,已结题,主持。

15.     中央高校面上项目,106112010CDJZR10120008,垂直排列的多壁碳纳米管光电响应特性研究,2010/06-2013/055万元,已结题,主持。

B.代表性论文

[1]     Quan J., Zhang J.*, Li J.Y., Zhang X.L., Wang M., Wang N., Zhu Y., Three-dimensional AgNPs-graphene-AgNPs sandwiched hybrid nanostructures with sub-nanometer gaps for ultrasensitive surface-enhanced Raman spectroscopy, Carbon 2019, 147, 105-111.

[2]     Zhang J.*, Yin Z.H., Zhang X.L., and Zhu Y., Quantitative SERS by electromagnetic enhancement normalization with carbon nanotube as an internal standard, Opt. Express, 2018, 26(18), 23534-23539.

[3]     Zhang J.*, Yin Z.H., Gong T.C., Luo Y.F., Wei D.P., and Zhu Y., Graphene/Ag nanoholes composites for quantitative surface-enhanced Raman scattering, Opt. Express, 2018, 26(17), 22432-22439.

[4]     Zhang X.L., Wang N., Liu R.J., Wang X.Y., Zhu Y., Zhang J., SERS and the photo-catalytic performance of Ag/TiO2/graphene composites, Optics Materials Express, 2018,8,4,704-717.

[5]     Huang P.J., Wang Ning, Li J.Y.,Zhu Y., Zhang J. , Fiber Fabry-Perot Force Sensor with Small Volume and High Performance for Assessing Fretting Damage of Steam Generator Tubes, Sensors 2017, 17, 2899.

[6]     Huang P.J., Wang N., Li J.Y.,Zhu Y., Zhang J.Xi Z.D., Optical Fiber Demodulation System with High Performance for Assessing Fretting Damage of Steam Generator Tubes, Sensors 2018, 18, 201.

[7]     Quan J.M, Zhang J.*, Qi X.Q., Li J.Y., Wang N., and Zhu Y., A study on the correlation between the dewetting temperature of Ag film and SERS intensity, Scientific Reports, 2017,7,14771.

[8]     Wang X.Y., Zhang J.*, hang X.L., and Yong Zhu Y., Characterization, uniformity and photo-catalytic properties of graphene/TiO2 nanocomposites via Raman mapping, Optics Express, 2017, 25(18), 21496-21508.

[9]     Li J.Y., Zhu Y. *, Wang X., Zhang J.*, Ding Y.M., Zhang X.L., Quan J.M., Wang N., Joint effect of the tube sizes and Fe-filling process on microwave dielectric properties of carbon nanotubes, Carbon, 2017, Volume 119, 386–393.

[10]  Quan J.M., Zhu Y., Zhang J., Li J.Y., and Wang N., High-performance surface-enhanced Raman scattering substrate prepared by self-assembling of silver nanoparticles into the nanogaps of silver nanoislands, Applied Optics, 2017, 56(20), 5751-5760.

[11]  Zhang J.*, Wang X.Y., Zhang P.Y., Quan J.M., Zhu Y., Surface-enhanced Raman scattering activities of graphene-wrapped Cu particles by chemical vapor deposition assisted with thermal annealing, Optics Express, 2016, 24(21):24551-24566.

[12]  Zhang J.*, Zhang X.L., Ding Y.M.,Zhu Y., ZnO/graphene/Ag composite as recyclable surface-enhanced Raman scattering substrates, Applied Optics, 2016,55,32, 9105-9112.

[13]  Zhang X.L., Zhang J.*, Quan J.M., Wang N., Zhu Y., Surface-enhanced Raman scattering activities of carbon nanotubes decorated with silver nanoparticles, Analyst, 2016, 141, 5527-5534.

[14]  Zhang J. *, Zhang X.L., Chen S.M., Gong T.C., Zhu Y. *, Surface-enhanced Raman scattering properties of multi-walled carbon nanotubes arrays-Ag nanoparticles, Carbon, 2016, 100: 395-407

[15]  Gong T.C., Zhang J.*, Zhu Y.*, Wang X.Y., Zhang X.L., Zhang J., Optical properties and surface-enhanced Raman scattering of hybrid structures with Ag nanoparticles and grapheneCarbon2016, 102: 245-254

[16]  Wang X.Y., Wang N.*, Gong T.C., Zhu Y.,Zhang J., Preparation of graphene-Ag nanoparticles hybrids and their SERS activities, Applied Surface Science , 2016, 387,707–719.

[17]  Zhang J.*, Zhang P.Y., Ding Y.M., Zhang X.L. , Quan J.M. , Zhu Y., Ag-Cu Nanoparticles Encaptured by Graphene with Magnetron Sputtering and CVD for Surface-enhanced Raman Scattering,Plasmonics, 2016, DOI: 10.1007/s11468-016-0202-9

[18]  Zhang J.*, Chen S.M., Gong T.C., Zhang X.L., Zhu Y., Tapered Fiber Probe Modified by Ag Nanoparticles for SERS Detection,Plasmonics, 2016,11(3), 743-751.

[19]  Gong T.C, Zhu Y.*, Zhang J.*, Xie W.B., Ren W.J.,Quan J.M., Study on surface-enhanced Raman scattering substrates structured with hybrid Ag nanoparticles and few-layer graphene,Carbon, 2015,87:385-394.

[20]  Zhang J.*, Zhang X.L., Lai C.H., Zhou H.J., Zhu Y.Silver-decorated aligned CNT arrays as SERS substrates by high temperature annealing, Optics Express, 2014, 22(18),21157-21166.

[21]  Zhang J. *, Fan T., Zhang X.L., Lai C.H., Zhu Y., Three-dimensional multi-walled carbon nanotube arrays coated by gold-sol as a surface-enhanced Raman scattering substrate, Applied Optics, 2014, 53(6),1159-1165.

[22]  Zhang J. *, Chen Y.L., Fan T., Lai C.H., Zhu Y., Vertically aligned Multi-walled CNT arrays coated by gold nanoparticles for surface-enhanced Raman scattering, Micro System Technologies, 2014, 20(1),113–117.

[23]  Zhang J. *, Chen Y.L., Zhu Y., Luo F., Photo-induced currents in large area multiwalled CNT films/Al structure, Chinese Optics Letters, 2014, 12(4),S10402.

[24]  Zhang J. *, Chen Y.L., Fan T., Zhu Y., Large area Au decorated multi-walled CNTs film for surface enhanced Raman scattering, Key Engineering Materials, 2013, 562(565),826-831.

 

联系方式

emailzhangjie@cqu.edu.cn