教授 博士生導師

周柳江

教授 博士生導師

電子郵箱:ljzhou86@hotmail.com

辦公電話:

教育背景

2009.09-2014.07              中國科學院大學      材料物理與化學博士

2004.09-2008.06              海南大學                  材料科學與工程學士


工作經歷

2019.06-至今             電子科技大學基礎與前沿研究院                  教授

2017.01-2019.05        美國洛斯阿拉莫斯國家實驗室                     主任博士后學者

2014.10-2016.12        德國不萊梅大學                                             博士后


研究領域

研究領域包括信息功能材料,光電器件,計算材料等。先后主持過德國、美國與國家部委等多個獨立科研項目。采用第一性原理(DFT,TDDFT,GW等)、半經驗(如相場等)與分子動力學等方法,對新型的光電、能源、拓撲等功能材料進行計算機設計,對晶體材料內在的電、磁、聲、光及耦合交叉性質進行靜態與動態的性能模擬,并在電催化、光催化、非線性光學晶體、鋰電池、鋰硫電池等領域與實驗課題組進行廣泛合作。已在Adv. Mat., Nano Lett., J.Am.Chem.Soc., Angew. Chem, ACS Energy Lett., J. Mater. Chem. A., Chem.Mater., J. Phys. Chem. Lett., J. Mater. Chem. A., Nanoscale, 2D Materials, J.Mater.Chem. C等國際知名SCI期刊上發表近60篇文章,其中發表在中科院一區雜志上的一作及通訊作者文章16篇,他引2149次,H-index24。曾獲研究生國家獎學金、美國洛斯阿拉莫斯主任學者等獎勵,并入選2019年國家部委青年項目。


代表性文章

1.      Sun, Y.; Huang, Z.; Zhou, Z.; Wu, J.; Zhou, L.; Cheng, Y.; Liu, J.; Zhu, C.; Yu, M.; Yu, P.; et al. Band Structure Engineering of Interfacial Semiconductors Based on Atomically Thin Lead Iodide Crystals. Adv. Mater. 2019, 1806562

2.      Zhou, L.*; Zhang, Y.; Zhuo, Z.; Neukirch, A. J.; Tretiak, S.* Interlayer-Decoupled Sc-Based Mxene with High Carrier Mobility and Strong Light-Harvesting Ability. J. Phys. Chem. Lett. 2018, 9, 6915–6920.

3.      Li, W.; Zhou, L.; Prezhdo, O. V.; Akimov, A. V. Spin–Orbit Interactions Greatly Accelerate Nonradiative Dynamics in Lead Halide Perovskites. ACS Energy Lett. 2018, 3, 2159–2166.

4.      Zhou, L.*; Neukirch, A.; Vogel, D.; Kilin, D.; Pedesseau, L.; Carignano, M.; Mohite, A.; Even, J.; Katan, C.; Tretiak, S.* Density of States Broadening in CH3NH3PbI3 Hybrid Perovskites Understood from ab initio Molecular Dynamics Simulations. ACS Energy Lett., 2018, 3, 787–793.

5.      Zhang, J.; Zhang, J.; Zhou, L.; Cheng, C.; Lian, C.; Liu, J.; Tretiak, S.; Lischner, J.; Giustino, F.; Meng, S. Universal Scaling of Intrinsic Resistivity in Two-Dimensional Metallic Borophene. Angew. Chem. Int. Ed. 2018, 57, 4585–4589.

6.       Liu, P.-F.; Zhou, L.*; Tretiak, S.; Wu, L.-M.* Two-Dimensional Hexagonal M3C2 (M = Zn, Cd and Hg) Monolayers: Novel Quantum Spin Hall Insulators and Dirac Cone Materials. J. Mater. Chem. C. 2017, 5, 9181-9187.

7.       Zhou, L.*; Zhuo, Z.; Kou, L.; Du, A.; Tretiak, S.* Computational Dissection of Two-Dimensional Rectangular Titanium Mononitride TiN: Auxetics and Promises for Photocatalysis. Nano Lett. 2017, 17, 4466–4472.

8.       Liu, P.-F.; Zhou, L.*; Frauenheim, T.; Wu, L.-M.* Two-dimensional hydrogenated molybdenum and tungsten dinitrides MN2H2 (M= Mo, W) as novel quantum spin hall insulators with high stability. Nanoscale. 2017, 9, 1007-1013.

9.       Liu, P.-F.; Zhou, L.*; Frauenheim, T.; Wu, L.-M.* Graphene-like Mg3N2 Monolayer: High Stability, Desirable Direct Band Gap and Promising Carrier Mobility. Phys. Chem. Chem. Phys. 2016,18, 30379-30384.

10.    Zhou, L.*; Shao, B.; Shi, W.; Sun, Y.; Felser, C.; Yan, B.; Frauenheim, Prediction of the quantum spin Hall effect in monolayers of transition-metal carbides MC (M=Ti, Zr, Hf). 2D Mater. 2016, 3, 35022.

11.    Zhou, L.*; Shi, W.; Sun, Y.; Shao, B.; Felser, C.; Yan, B.; Frauenheim, T. Rectangular Tantalum Carbide Halides TaCX (X = Cl, Br, I) monolayer: Novel Large-Gap Quantum Spin Hall Insulator. 2D Mater. 2016, 3, 35018.

12.    Zhou, L.*; Hou, Z.F.; gao, B.; Frauenheim, F. Doped Graphene as Anodes with Large Capacity for Lithium-Ion Batteries. J. Mater. Chem. A. 2016, 4, 13407–13413.

13.    Zhou, L.*; Zhang, J.; Zhuo, Z.; Kou, L.; Ma, W.; Shao, B.; Du, A.; Meng, S.; Frauenheim, F. Novel Excitonic Solar Cells in Phosphorene-TiO2 Heterostructures with Extraordinary Charge Separation Efficiency. J. Phys. Chem. Lett. 2016, 7, 1880–1887.

14.    Dong, H.; Zhou, L.*; Frauenheim, T.; Hou, T.; Lee, S.T.; Li, Y.* SiC7 Siligraphene: Novel Donor Material with Extraordinary Sunlight Absorption. Nanoscale, 2016, 8, 6994-6999.

15.    Liu, P.-F.; Zhou, L.*; Frauenheim, T.; Wu, L.-M.* New Quantum Spin Hall Insulator in Two-Dimensional MoS2 with Periodically Distributed Pores. Nanoscale, 2016, 8, 4915–4921.

16.    Zhou, L.*; Kou, L.; Sun, Y.; Felser, C.; Hu, F.; Shan, G.; Smith, S. C.; Yan, B.; Frauenheim, T. New Family of Quantum Spin Hall Insulators in Two-Dimensional Transition-Metal Halide with Large Nontrivial Band Gaps. Nano Lett., 2015, 15, 7867–7872.

17.    Zhou, L. J.; Hou, Z. F.; Wu, L. M.; Zhang Y.F. (2014): First-Principles Studies of Lithium Adsorption and Diffusion on Graphene with Grain Boundaries. J. Phys. Chem. C, 2014, 118, 28055–28062.

18.    Yu, P.; Wu, L. M.; Zhou, L. J.; Chen, L. Deep-Ultraviolet Nonlinear Optical Crystals: Ba3P3O10X (X = Cl, Br). J. Am. Chem. Soc. 2014, 136, 480–487.

19.    Zhou, L. J.*; Zhang, Y. F.; Wu, L. M. SiC2 Siligraphene and Nanotubes: Novel Donor Materials in Excitonic Solar Cell. Nano Lett., 2013, 13, 5431–5436.

20.    Lin, H.; Chen, L.; Zhou, L.-J.; Wu, L.-M. Functionalization Based on the Substitutional Flexibility: Strong Middle IR Nonlinear Optical Selenides AXII4XIII5Se12. J. Am. Chem. Soc., 2013, 135, 12914–12921.

21.    Yu, P.; Zhou, L. J.; Chen, L. Noncentrosymmetric Inorganic Open-Framework Chalcohalides with Strong Middle IR SHG and Red Emission: Ba3AGa5Se10Cl2 (A = Cs, Rb, K). J. Am. Chem. Soc., 2012, 134, 2227–2235.

22.    Zhou, L. J.; Hou, Z. F.; Wu, L. M. First-Principles Study of Lithium Adsorption and Diffusion on Graphene with Point Defects. J. Phys. Chem. C, 2012, 116, 21780-21787.

 

博士招生方向

080500材料科學與工程

01 電子信息材料與器件

02 材料基因工程

04 新能源材料與器件

 

碩士招生方向

080500材料科學與工程

01 電子功能材料及器件

04 低維電子材料

06 材料計算與模擬


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