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量子材料与器件研究中心

周字桢(弘深青年教师)

发布时间:2020-09-02资料来源:点击次数:

周字桢 弘深青年教师


教育背景

武汉大学材料物理与化学(硕博连读)2015.9-2020.7

武汉大学材料物理与化学(本科) 2011.9-2015.7


研究领域

1.能源材料:设计并调控热电材料性能,提高热电转化效率。

2.拓扑材料:研究拓扑材料的机理,为将来利用其自旋与电荷特性传输量子信息做出贡献。

3.大数据分析:基于压缩传感方法探索材料的物理本质;基于大数据分析方法促进新型材料的发现与发展。


研究成果

[1]Zizhen Zhou, Huijun Liu*, Dengdong Fan, Guohua Cao, and Caiyu Sheng, High thermoelectric performance in the hexagonal bilayer structure consisting of light boron and phosphorus elements.Phys. Rev. B99, 085410 (2019).

[2]Zizhen Zhou, Huijun Liu*,Dengdong Fan,and Guohua Cao, A comparative study of the thermoelectric performance of graphene-like BX (X = P, As, Sb) monolayers,J. Phys.: Condens. Matter31, 385701 (2019).

[3]Zizhen Zhou, Dengdong Fan, and Huijun Liu*,Realizing high thermoelectric performance with comparablep- andn-type figure-of-merit in the graphene/h-BN superlattice monolayer,Phys. Chem. Chem. Phys.21, 26630 (2019).

[4]Zizhen Zhou, Huijun Liu*, Dengdong Fan, Caiyu Sheng, and Guohua Cao, High thermoelectric performance originating from the grooved bands in the ZrSe3monolayer, ACS Appl. Mater. Interfaces10, 37031 (2018).

[5]Zizhen Zhou, Huijun Liu*, Dengdong Fan, Binyao Zhao, Caiyu Sheng,Guohua Cao, and Shan Huang,First-principles study of the thermoelectric properties of quaternary tetradymite BiSbSeTe2,J. Phys. D: Appl. Phys.51, 315501 (2018).

[6]Zizhen Zhou,Dengdong Fan,Huijun Liu*, and Jing Liu,High figure-of-merit in the heavy-fermion UN2system for radioisotope thermoelectric applications, (accepted byJ. Phys.: Condens. Matter).

[7]Zizhen Zhou, Guohua Cao, Jianghui, Liu, and Huijun Liu*,High-throughput computation of the carrier relaxation time via data-driven descriptor,(submitted tonpj Comput. Mater.).

[8] Renqi Zhang,Zizhen Zhou, Ning Qi, Bin Zhao, Quankun Zhang, Ziye Zhang, and Zhiquan Chen*, Significant enhancement in the thermoelectric performance of Bi2O2S through dimensionality reduction, J. Mater. Chem. C7, 14986 (2019).

[9] Jianghui Liu, Shihao Han, G. H. Cao,Zizhen Zhou, Caiyu Sheng, and Huijun Liu*,A high-throughput descriptor for prediction of lattice thermal conductivity of half-Heusler compounds,(accepted byJ. Phys. D: Appl. Phys.).

[10] Shihao Han,Zizhen Zhou, Caiyu Sheng, Jianghui Liu, Lei Wang, Hongmei Yuan, Huijun Liu*, High thermoelectric performance of half-Heusler compound BiBaK with intrinsically low lattice thermal conductivity, (accepted byJ. Phys.: Condens. Matter).