当前位置:首页>研究团队

张希Xi ZHANG
副研究员
E-mail: zh0005xi#szu.edu.cn(#换成@)

电 话:+86-755-26656730


 

教育:

2008.08–2013.06    博士     南洋理工大学,新加坡

2010.09–2010.12   交换, 分子与原子物理研究所,中央研究院,台湾

2004.08–20080.7    理学士: 材料物理   理学院, 中国民航大学,天津

 

工作经历:

2014.10-至今    讲师,深圳大学

2012.08 –2014.08 博士后,南洋理工大学,新加坡 PI:Hajime Hirao, 孙长庆



现阶段研究重点:

            研究一种多层石墨烯纳米带垂直聚集生长的表面材料(纳晶石墨烯表面)的传感性能。设计、制造和封装纳晶石墨烯表面传感系统。

荣誉:

 

2015年11月 深圳市海外高层次人才B类(孔雀计划)

 


项目情况:

2017-1-1到2019-12-31 项目编号51605306 石墨烯边缘嵌入式纳米薄膜的光电响应原理及其在传感器中的应用,国家自然科学基金青年科学基金项目,20万

2016.6-2019.6  广东省自然科学基金-博士启动项目 项目编号2016A030310060

2016.1-2017.12  广东省教育厅青年创新人才项目 项目编号2015KQNCX144

2016.1-2019.12,深圳市高端人才科研启动项目,项目编号827000131
2015.6-2017.5,深圳大学新引进教师科研启动项目,项目编号201528

 

 

代表论文: (详见:researchidreserchgategoogle-张希杜 )

1. 专题报告:

  1. (3) Huang Yongli #,Zhang Xi#,Nie Yanguang,Zheng Weitao,Sun Changqing,Hydrogen-bond relaxation dynamics: resolving my steries of water ice,Coordination Chemistry Reviews,2015,285:109-165。 (#同等贡献,IF:12.239,JCR一区 TOP)

  2. (2)Liu, Xinjuan#; Zhang, Xi#; Bo, MaoLin; Li, Lei; Tian, Hongwei; Nie, Yanguang; Sun, Yi; Xu, Shiqing; Wang, Yan; Zheng, Weitao; Sun, Changqing*,Coordination-resolved electron spectrometrics, Chemical Reviews, 2015, 115(14):6746-6810(#同等贡献,IF:46.568,JCR一区 TOP)

  3. (1)Zhang Xi, Sun Peng, Yan Tingting, Huang Yongli, Ma Zengsheng, Zou Bo, Zheng Weitao, Zhou Ji, Sun Changqing*, Water’s phase diagram: from the notion of thermodynamics to hydrogen-bond cooperativity, Prog Solid State Chem, 43:71-81,2015.(IF:6.600,JCR小一区)

==

2.低维碳材料中键弛豫与端态极化:

  1. (3) Zhang, Xi,Wang, Chao,Sun, Chang Q.,Diao, Dongfeng,Magnetism induced by excess electrons trapped at diamagnetic edge-quantum well in multi-layer graphene,Applied Physics Letters,2014,105(4):042402。( IF:3.515,JCR二区) 

  2. (2) Zhang, Xi,Nie, Yanguang,Zheng, Weitao,Kuo, Jer-lai,Sun, Chang Q.,Discriminative generation and hydrogen modulation of the Dirac-Fermi polarons at graphene edges and atomic vacancies,Carbon,2011,49(11):3615-3621。(IF:5.868, JCR一区TOP)

  3. (1) Zhang, Xi,Kuo, Jer-lai,Gu, Mingxia,Bai, Ping,Sun, Chang Q.,Graphene nanoribbon band-gap expansion: Broken-bond-induced edge strain and quantum entrapment,Nanoscale,2010,2(10):2160-2163。(IF:6.233, JCR一区TOP)

==

3. 金属团簇的电子的量子钉扎与极化:

  1. (2) Zhang, Xi,Sun, Chang Q.,Hirao, Hajime,Guanine binding to gold nanoparticles through nonbonding interactions,Physical Chemistry ChemicalPhysics,2013,15(44):19284-19292。(IF:4.198,JCR二区)

  2. (1) Zhang, Xi,Kuo, Jer-lai,Gu, Mingxia,Fan, Xiaofeng,Bai, Ping,Song, Qing-Gong,Sun, Chang Q.,Local structure relaxation, quantum trap depression, and valence charge polarization induced by the shorter-and-stronger bonds between under-coordinated atoms in gold,Nanoscale,2010,2(3):412-417。(IF:6.233, JCR一区TOP)

==

4.氢键非对称弛豫与水的反常物性:

  1. (9)Xi Zhang, Yongli Huang, Peng Sun, Xinjuan Liu, Zengsheng Ma, Yichun Zhou, Ji Zhou, Weitao Zheng, Chang Q Sun,Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity, Scientific Reports 2015 Sep, 5, Article number: 13655

  2. (8) Huang Yongli#, Zhang Xi#,  Ma Zengsheng, Zhou Guanghui, Gong Yinyan, Sun Changqing, Potential Paths for the Hydrogen-Bond Relaxing with (H2O)(N) Cluster Size, J Phys Chem C, 2015 Jul, 119(29): 16962-16971. (#同等贡献,IF: 4.772, JCR二区)

  3. (7) Zhang, Xi,Yan, Tingting,Huang, Yongli,Ma, Zengsheng,Liu, Xinjuan,Zou, Bo,Sun, Chang Q.,Mediating relaxation and polarization of hydrogen-bonds in water by NaCl salting and heating,Physical Chemistry Chemical Physics,2014,16(45):24666-24671。(IF:4.198,JCR二区)

  4. (6) Zhang, Xi,Huang, Yongli,Ma, Zengsheng,Zhou, Yichun,Zhou, Ji,Zheng, Weitao,Jiang, Qing,Sun, Chang Q.,Hydrogen-bond memory and water-skin supersolidity resolving the Mpemba paradox,Physical Chemistry Chemical Physics,2014,16(42):22995-23002。(IF:4.198,JCR二区)

  5. (5) Zhang, Xi,Huang, Yongli,Ma, Zengsheng,Zhou, Yichun,Zheng, Weitao,Zhou, Ji,Sun, Chang Q.,A common supersolid skin covering both water and ice,Physical Chemistry Chemical Physics,2014,16(42):22987-22994。

  6. (4) Huang, Yongli #,Zhang, Xi# , Ma, Zengsheng,Li, Wen,Zhou, Yichun,Zhou, Ji,Zheng, Weitao,Sun, Chang Q.,Size, separation, structural order, and mass density of molecules packing in water and ice,Scientific Reports,2013,3。(#同等贡献,IF:5.078,JCR二区)

  7. (3) Sun, Chang Q.; Zhang, Xi; Fu, Xiaojian; Zheng, Weitao; Kuo, Jerlai; Zhou, Yichun; Shen, Zexiang; Zhou, Ji. Density and Phonon-Stiffness Anomalies of Water and Ice in the Full Temperature Range, Journal of Physical Chemistry Letters, 2013,4 (19): 3238-3244。(IF:6.585, JCR小一区)

  8. (2) Sun, Chang Q.; Zhang, Xi; Zhou, Ji; Huang, Yongli; Zhou Yichun; Zheng, Weitao. Density, Elasticity, and Stability Anomalies of Water Molecules with Fewer than Four Neighbors, Journal of Physical Chemistry Letters, 2013,4(15): 2565-2570。(IF:6.585, JCR小一区)

  9. (1) Sun, Chang Q.; Zhang, Xi; Zheng, Weitao, The hidden force opposing ice compression, Chemical Science, 2012,117: 13639-13645。(IF:8.314,JCR一区)

 

学术交流情况

10th International Conference on Computational Physics (ICCP10), Macao SAR, China, 16-20 January 2017, Title: Water and ice skin: Mpemba Paradox & Quantum Friction, Invited Talk & Session Chair


The 11th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2016)
Sendai, Japan, 17-20 April, 2016, Title: 3D graphene-nanoribbon ultrafast electro-optical nanosensor, Oral



SICC-7 and APCE 2012 - 7th Singapore International Chemical Conference and 12th Asia Pacific International Symposium on Capillary Electrophoresis and Microscale Separation and Analysis (Singapore,16 - 19 Dec 2012 ), Title: DNA Base- Au_N (N=13~55) complexes: Under-coordination matters.Oral


The 6th International Conference on Nanophotonics (ICNP’2012), Peking University, Beijing, China, 27‐30 May, 2012, Title: Red‐shift of photo‐electronic resonant peak induced by valenceband polarization in noble metal nanocages, Oral.

 

INEC-3 - 3rd IEEE International NanoElectronics Conference (Hongkong, 3-8 Jan, 2010 ), Title: Local structure relaxation, Quantum trap depression, and Valence charge polarization in gold nanostructures. Oral. (EI)