A través del ingreso al BRAIA, por medio del trabajo del Centro Tecnológico Aeroespacial, la Universidad Nacional de La Platay la Universidad plotécnica del Noroeste de Xi'an, China, se habren líneas de trabajo y cooperación académica para llevar adelante, en ésta oportunidad se presenta un llamado a beca.

El grupo del Prof. Zhang da la bienvenida a las solicitudes de Postdoc, Doctorado y estudiantes de maestría en los siguientes campos, entre otros, Ingeniería Óptica, Ingeniería Eléctrica y Electrónica, Física y Materia Condensada, Ciencia e Ingeniería de Materiales.

Los interesadoas deberán mandar su solicitud al siguiente mail cta@ing.unlp.edu.ar



Introduction of Prof. ZHANG Fuli

Prof. ZHANG Fuli  was born in Xinxiang, China, October, 1982. He received B.S. degree of Materials Science and Engineering, and M.S. degree of Optical Engineering from Northwestern Polytechnical University (NPU), Xi'an, China, in 2003 and 2006, respectively. During the period from 2009 to 2011, he carried out Phd study at the Institut d’Électronique de Microélectronique et Nanotechnologies (IEMN), Université des Sciences et Technologies de Lille (USTL), France. In November 2011, He received the Phd degree of Telecom, Acoustics and Micro-Nano Electronics from USTL, France. He works currently as full professor since 2015, at School of Physics in NPU. He becomes director of interantional cooperation office, and dean of international college, NPU since Dec. 2018 and general secretary of BRAIA, May 2018.

His main research interests include electromagnetic artificial designed metamaterial, interaction between wave and matters, micro and nano photonics, and related application , etc.  He has published more than 60 papers invoving metamaterial on various top international journals, including Advanced Materials, Physical Review X,  Physical Review B, Applied Physics Letters, IEEE Transactions on Microwave and Techniques. 

Prof. Zhang’s group welcomes Postdoc, Phd and master student applications in but not limited following fields, including Optical Engineering, Electrical and Electronics Engineering, Physics and Condensed Matter, Material Science and Engineering.





Selected publications are as follows,

1.         F. Zhang*, C. Li, Y. Fan, R. Yang, NH. Shen, Q. Fu, W. Zhang, Q. Zhao, J. Zhou, Thomas Koschny, Costas M. Soukoulis, “Phase‐Modulated Scattering Manipulation for Exterior Cloaking in Metal–Dielectric Hybrid Metamaterials,” Adv. Mater. 1903206 (2019). ( IF:25.806).

2.         D. Lan, M. Qin, R. Yang, S. Chen, H. Wu, Y. Fan, Q. Fu, and F. Zhang*, "Facile synthesis of hierarchical chrysanthemum-like copper cobaltate-copper oxide composites for enhanced microwave absorption performance,” J. Colloid Interface Sci. 533 , 481-491 (2019). ( IF : 6.361).

3.         R. Yang, Q. Fu, Y. Fan*, W. Cai, K. Qiu, W. Zhang, and F. Zhang*, “Active control of EIT-like response in a symmetry-broken metasurface with orthogonal electric dipolar resonators,” Photon. Res. 7 ,955-960 (2019). ( IF : 5.522).

4.         X. Sun, Q. Fu, Y. Fan, H. Wu, K. Qiu, R. Yang, W. Cai, N. Zhang, and F. Zhang*, “Thermally controllable Mie resonances in a water-based metamaterial,” Sci. Rep. 9. 5417 (2019). ( IF:4.011).

5.         J. Xu, Y. Fan, R. Yang, Q. Fu, and F. Zhang*, "Realization of switchable EIT metamaterial by exploiting fluidity of liquid metal,"  Opt. Express. 27(3), 2837-2843 (2019). ( IF:3.561).

6.         Y. Fan*, NH. Shen, F. Zhang, Q. Zhao, Z. Wei, P. Zhang, J. Dong, Q. Fu, H.  Li, and Costas M. Soukoulis,  "Photoexcited graphene metasurfaces: significantly enhanced and tunable magnetic resonances,” ACS Photonics. 5(4) , 1612-1618 (2018). ( IF:7.143).

7.         Y. Fan*, NH. Shen, F. Zhang, Q. Zhao, H. Wu, Q. Fu, Z. Wei, H. Li, and Costas M. Soukoulis,  "Graphene plasmonics: a platform for 2D optics,"  Adv. Opt. Mater. 7(3), 1800537 (2018). ( IF:7.125).

8.         W. Zhu, R. Yang, Y. Fan*, Q. Fu, H. Wu, P. Zhang, NH. Shen, and F. Zhang*,   "Controlling optical polarization conversion with Ge2Sb2Te5-based phase-change dielectric metamaterials,” Nanoscale. 10(25), 12054-12061 (2018). ( IF:6.97).

9.         Y. Fan*, L. Tu, F. Zhang, Q. Fu, Z. Zhang, Z. Wei, H. Li,  "Broadband Terahertz Absorption in Graphene-Embedded Photonic Crystals,”  Plasmonics. 13(4), 1153-1158. (2018). ( IF:2.926).

10.       Y. Fan*, F. Zhang, NH. Shen, Q. Fu, Z. Wei, H. Li, and Costas M. Soukoulis, "Achieving a high-Q response in metamaterials by manipulating the toroidal excitations," Phys. Rev. A. 97(3) , 033816  (2018). ( IF:2.907).

11.       S. Chen, Y. Fan*, Q. Fu, H. Wu, Y. Jin, J. Zheng, F. Zhang*, “A Review of Tunable Acoustic Metamaterials,” Appl. Sci. 8(9) , 1480 (2018). ( IF:2.217).

12.       R. Peng, Z. Xiao, Q. Zhao*, F. Zhang, Y. Meng, B. Li, J. Zhou, Y. Fan, P. Zhang, NH. Shen, Thomas Koschny, and Costas M. Soukoulis, "Temperature-controlled chameleonlike cloak,"  Phys. Rev. X. 7(1), 011033 (2017). ( IF:12.211).

13.       K. Qiu*, J. Jin, Z. Liu, F. Zhang, and W. Zhang,  "A novel thermo-tunable band-stop filter employing a conductive rubber split-ring resonator,"  Mater. Design. 116 , 309-315 (2017). ( IF:5.77).

14.       Y. Fan*, T. Qiao, F. Zhang, Q. Fu, J. Dong, B. Kong, and H. Li,         "An electromagnetic modulator based on electrically controllable metamaterial analogue to electromagnetically induced transparency,"  Sci. Rep. 7 , 40441 (2017). (IF:4.011).

15.       Q. Fu, F. Zhang*, Y. Fan, J. Dong, W. Cai, W. Zhu, S. Chen, and R. Yang,  " Weak coupling between bright and dark resonators with electrical tunability and analysis based on temporal coupled-mode theory," Appl. Phys. Lett. 110(22) , 221905 (2017). ( IF:3.521).

16.       F. Zhang*, C. Li, X. He, L. Chen, Y. Fan, Q. Zhao, W. Zhang, and J. Zhou, "Magnetically coupled Fano resonance of dielectric pentamer oligomer,"  J. Phys. D: Appl. Phys. 50(27) , 275002 (2017).  ( IF:2.829).

 17.       Y. Fan*, NH. Shen, F. Zhang, Z. Wei, H. Li, Q. Zhao, Q. Fu, P. Zhang, Thomas