Jinzhong Zhang

2008.09 - 2013.07: East China Normal University, Microelectronics and  Solid-State Electronics, Doctor's Degree, Supervisor: Prof. Dr. Jun-Hao  Chu (Academician)

2004.09 - 2008.07: East China Normal University, Physics, Bachelor's Degree

2019.07 - School of Physics and Electronic Science, East China Normal University, Associate Professor

2015.09 - 2019.06: School of Information Science and Technology, East China Normal University, Associate Professor

2017.05 - 2019.05: Peter Grünberg Institut (PGI-9), Forschungszentrum  Jülich, Germany, Post-Doc.，Supervisor: Prof. Dr. Thomas Schäpers

2013.07 - 2015.09: Shanghai Institute of Technical Physics of the  Chinese Academy of Sciences, Post-Doc, Supervisor: Prof. Dr. Jun-Hao Chu (Academician)

Dr. Jinzhong Zhang is interested in the fundamental problems in semiconductor physics and in semiconductor materials. Our research is focused on understanding optical and transport properties of photo-electronic devices based on two-dimensional layered semiconductors and ferroelectrics. He has published peer-reviewed papers as first/corresponding author in Nat. Commun., Appl. Phys. Lett., Phys. Rev. B, Sci. China Technol. Sc. and so on. He obtained the “Shanghai Pujiang Program” in 2020.

1. NSFC (General Program, No. 62074058): Optoelectronic properties in two-dimensional layered material based transistors modulated by ferroelectric negative capacitance effects, 2021.01.01-2024.12.31, Principal investigator.
2. China and Germany Postdoctoral Exchange Program (OCPC-Jülich-Programme, No. 20161008): Quantum transport in nanostructured topological insulators, 2017.05.01-2019.04.30.
3. NSFC (Young Scientists Fund, No. 61504156): The quantum size effect and photoelectric coupling mechanism of ferroelectric nanotube arrays, 2016.01.01-2018.12.31, Principal investigator.

代表性著作：

1. K. Jiang, L.P. Xu, J.Z. Zhang,  Z.G. Hu,* and J.H. Chu, Structural transformations in ferroelectrics  discovered by Raman spectroscopy, Raman Spectroscopy edited by Gustavo  M. do Nascimento‚ Chapter 12‚ page: 253-272‚ ISBN: 978-953-51-5746-5  (INTECH Open Access Publishers‚ Vienna‚ 2018).

代表性论文： 

21. X. Zhou, M. Li, J.Z. Zhang*, L.Y. Shang, K. Jiang, Y.W. Li , L.Q. Zhu, Z.G. Hu*, and J.H. Chu, High quality p-type Mg-doped β-Ga2O3 films for solar-blind photodetectors. IEEE Electron Device Lett. 43 (4), 580-583 (2022).

19. J.Z. Zhang,  P.-L. Tse, A.-R. Jalil, J. Kölzer, D. Rosenbach, M. Luysberg, G.  Panaitov, H. Lüth, Z.G. Hu, D. Grützmacher, J.G. Lu, and T. Schäpers*, Flux periodic oscillations and phase-coherent transport in GeTe nanowire-based devices. Nat. Commun. 12 (1), 754 (2021).

18. L.P. Xu, Z.H. Duan, P. Zhang, X. Wang, J.Z. Zhang*, L.Y. Shang, K. Jiang, Y.W. Li, L.Q. Zhu, Y.J. Gong, Z.G. Hu*, and J.H. Chu, Ferroelectric-modulated MoS2 field-effect transistors as multilevel nonvolatile memory. ACS Appl. Mater. Interfaces 12 (40), 44902 (2020).

17. J.Z. Zhang,   A.R. Jalil, P.-L. Tse, J. Kölzer, D. Rosenbach, H. Valencia, M.   Luysberg, M. Mikulics, G. Panaitov, D. Grützmacher, Z.G. Hu, J.G. Lu   and T. Schäpers*, Proximity effect induced superconductivity in Nb/Sb2Te3-nanoribbon/Nb junctions.Ann. Phys. 533, 2000273 (2020).

16. Z. Jin, J.Y. Zhou, M.Z. Xie, H. Ji, Y. Ye, K. Jiang, L.Y. Shang, J.Z. Zhang*, Z.G. Hu* and J.H. Chu, Strong charge-density-wave order of large-area 2D metallic VSe2 nanosheets discovered by temperature-dependent Raman spectra.Appl. Phys. Lett. 116(3), 033102 (2020).

15. M. He, C.Y. Wang, J.Z. Li, J. Wu, S.W. Zhang, H.-C. Kuo, L.Y. Shao, S.C. Zhao, J.Z. Zhang*, F.Y. Kang, and G.D. Wei*, CsPbBr3-Cs4PbBr6 composite nanocrystals for highly efficient pure green light emission.Nanoscale 11(47), 22899-22906 (2019).

14. Q. Ding,  L.P. Xu, J.Z. Zhang*, K. Jiang, Z.G. Hu*, Z.Y. Zhou, X.L. Dong, J.H. Chu, Exploration of a Ca1-x(NaCe)x/2Bi4Ti3.98(WNb)0.01O15 ceramic intermediate phase by temperature dependent spectroscopic ellipsometry and Raman scattering. J. Vac. Sci. Technol. B 37(6), 061211 (2019).

13. W.L. Xu, X. Li, Q.Q. Li, Q.L. Deng, J.Z. Zhang*, K. Jiang*, Y.W. Li, L.Y. Shang, Z.G. Hu, J.H. Chu, Spectroscopic study of phase transitions inferroelectric Bi_0.5Na_0.5Ti_1-xMn_xO_3-δ films with enhanced ferroelectricity and energy storage ability. J. Alloys Compd. 768, 377-386 (2018).

12. Y.B. Sun, W.L. Xu, X.H. Fu, Z.H. Sun, J.Y. Wang, J.Z. Zhang*, D. Rosenbach, R.J. Qi, K. Jiang, C.B. Jing*, Z.G. Hu, X.M. Ma, and J.H. Chu, Evaluation of lattice dynamics, infrared optical properties and visible emissions of hexagonal GeO₂ films prepared by liquid phase deposition. J. Mater. Chem. C  5(48), 12792-12799 (2017).

11. Y.B. Sun, X.J. Li*, J.Z. Zhang*, and Y.L. Shi, Improved high-frequency equivalent circuit model based on distributed effects for SiGe HBTs with CBE layout. Chin. Phys. B 26(09), 098502 (2017).

10. J.Z. Zhang, K. Jiang, Z.Y. Zhou, Z.G. Hu*, G.S. Wang, X.L. Dong, and J.H. Chu, Lattice dynamics, dielectric constants, and phase diagram of bismuth layered ferroelectric Bi₃Ti_1-xW_xNbO_9+δ ceramics. J. Am. Ceram. Soc. 99(11), 3610-3615 (2016).

9. J.Z. Zhang, K. Jiang, Z.G. Hu*, and J.H. Chu, A novel technique for probing phase transitions in ferroelectric functional materials: Condensed matter spectroscopy. Sci. China Technol. Sc. 59(10): 1537-1548 (2016).

8. J.Z. Zhang, W.-Y. Tong, J.J. Zhu, J.Y. Xu, Z.H. Duan, L.P. Xu, Z.G. Hu*, C.-G. Duan, X.J. Meng, Z.Q. Zhu, and J.H. Chu, Temperature dependent lattice dynamics and electronic transitions of  0.93Pb(Zn_1/3Nb_2/3)O₃-0.07PbTiO₃ single crystals: Experiment and theory.Phys. Rev. B 91(08): 085201 (1-8) (2015).
7. J.Z. Zhang, H.C. Ding, J.J. Zhu, Y.W. Li, Z.G. Hu*, C.-G. Duan, X.J. Meng, and J.H. Chu, Electronic structure and optical responses of nanocrystalline BiGaO₃ films: A combination study of experiment and theory. J. Appl. Phys. 115(08): 083110 (1-5) (2014).

6. J.Z. Zhang‚ Z.H. Duan, H. Zhang, M.J. Han‚ Y.W. Li‚ Z.G. Hu*‚ and J.H. Chu‚ Improved electric behaviors of Pt/Bi_1-x La_xFe_0.92Mn_0.08O₃/n⁺-Si heterostructure for nonvolatile ferroelectric random-access memories. J. Mater. Chem. C 01(39): 6252-6258 (2013).

5. M.S. Wang, C.B. Gao, L. He, Q.P. Lu, J.Z. Zhang, C. Tang, S. Zorba, and Y.D. Yin*, Magnetic tuning of plasmonic excitation of gold nanorods. J. Am. Chem. Soc. 135(41): 15302- 15305 (2013).
4. J.Z. Zhang‚ M.J. Han‚ Y.W. Li‚ Z.G. Hu*‚ and J.H. Chu‚ Enhanced Raman scattering and photoluminescence of Bi_3.25La_0.75Ti₃O₁₂ nanotube arrays for optical and ferroelectric multifunctional applications.Appl. Phys. Lett. 101(08): 081903 (1-5) (2012).  
3. J.Z. Zhang‚ X.G. Chen‚ K. Jiang‚ Y.D. Shen‚ Y.W. Li‚ Z.G. Hu*‚ and J.H. Chu‚ Evolutions  of orientation degree‚ lattice dynamics‚ and electronic band structure  properties in nanocrystalline lanthanum-doped bismuth titanate  ferroelectric films by chemical solution deposition.Dalton Transactions 40(31): 7967-7975 (2011).

2. J.Z. Zhang‚ X.G. Chen‚ Y.D. Shen‚ Y.W. Li‚ Z.G. Hu*‚ and J.H. Chu‚ Synthesis‚ surface morphology‚ and photoluminescence properties of anatase iron-doped titanium dioxide nano-crystalline films.Phys. Chem. Chem. Phys. 13(28): 13096-13105 (2011).

1. J.Z. Zhang‚ Y.D. Shen‚ Y.W. Li‚ Z.G. Hu*‚ and J.H. Chu‚ Composition dependence of microstructure‚ phonon modes‚ and optical properties in rutile TiO₂:Fe nanocrystalline films prepared by a nonhydrolytic sol-gel route.J. Phys. Chem. C 114(35): 15157-15164 (2010).

申请专利：

1. 张金中、沈育德、李亚魏、胡志高、孟祥建和褚君浩，一种镓酸铋铁电薄膜材料及其制备方法，发明专利，授权号ZL 2014 1 0065071.X

2. 杨静、张金中等，获取磁性材料的磁学性质的方法，发明专利，申请号201610032616.6

3. 敬承斌、付晓红、王旭、王琳、张金中、越方禹、李文武、胡志高、杨平雄和褚君浩，一种金属毛细管/二氧化锗电介质膜中远红外空芯光纤及其制备方法，发明专利，申请号201610968602.5

4. 敬承斌、付晓红、王琳、王旭、越方禹、张金中、李文武、胡志高、杨平雄和褚君浩，一种金属毛细管/环烯烃聚合物电介质膜太赫兹空芯光纤及其制备方法，发明专利，申请号201610953543.4