5357cc拉斯维加斯


            

个人简历

 

     赵钦,博士,副教授。20186月毕业于东北师范大学物理化学专业。博士期间主要从事高安全性和稳定性的非水系锂-空气电池催化剂和电解质方面的研究。20199月入职5357cc拉斯维加斯,清洁能源化学研究院。目前主要从事先进功能材料在能源储存与转化方面的研究,在Angew. Chem. Inter. Ed.,J. Mater. Chem. A.,ACS Appl. Mater. Inter.等国际知名期刊上发表多篇SCI论文。欢迎报考5357cc拉斯维加斯的研究生通过E-mail联系加入清洁能源化学研究院,从事储能材料、纳米材料和电化学等方向的相关研究和产品开发工作。

主要科研方向:

      1. 金属-空气电池;

      2. 新型离子电池;

      3. 电催化二氧化碳还原。

代表性论文:

[1]    Q. Zhao, N. Katyal, I. Seymour, G. Henkelman, T. Y. Ma*. Vanadium (III) Acetylacetonate as an Efficient Soluble Catalyst for Li-O2 Battery. Angew. Chem. Inter. Ed.2019, 58(125), 12553-12557.

[2]    Q. Zhao, C. X. Wu, L. N. Cong, Y. H. Zhang, G. R. Sun, H. M. Xie*, L. Q. Sun*, J. Liu. Yolk-shell Co2CrO4 Nanospheres as Highly Active Catalysts for Li-O2 Batteries: Understanding the Electrocatalytic Mechanism. J. Mater. Chem. A. 2017, 5 (2), 544-553.

[3]    Q. Zhao, Y. H. Zhang, G. R. Sun, L. N. Cong, L. Q. Sun, H. M. Xie*, J. Liu*. Binary Mixtures of Highly Concentrated Tetraglyme and Hydrofluoroether as a Stable and Nonflammable Electrolyte for Li-O2 Batteries. ACS Appl. Mater. Inter.2018, 10 (31), 26312-26319.

[4]    G. R. Sun, Q. Zhao, T. Wu, W. Lu, M. Bao, L. Q. Sun, H. M. Xie*, J. Liu*. 3D Foam-Like Composites of Mo2C Nanorods Coated by N-Doped Carbon: A Novel Self-Standing and Binder-Free O2 Electrode for Li-O2 Batteries. ACS Appl. Mater. Inter.2018, 10 (31), 6327-6335.

[5]    Y. H. Zhang, Q. Zhao, L. N. Cong, S. D. Bao, H. M. Xie*, L. Q. Sun*. Fabrication of CNTs/MnO2 composite as a wrapping layer for surface modification of Cr-doped LiNi0.5Mn1.5O4 for lithium ion batteries. RSC Adv.2016, 6 (91), 88719-88726.

[6]    L. N. Cong, Q. Zhao, Z. Wang, Y. H. Zhang, X. W. Wu, J. P. Zhang, R. S. Wang, H. M. Xie*. L. Q. Sun*. (PO4)3- polyanions doped LiNi1/3Co1/3Mn1/3O2: An ultrafast-rate, long-life and high-voltage cathode material for Li-ion rechargeable batteries. Electrochim Acta. 2016, 6 (91), 88719-88726.

[7]    L. H. Tai, Q. Zhao, L. Q. Sun, L. N. Cong, X. L. Wu, J. P. Zhang, R. S. Wang, H. M. Xie* and X. H. Chen*. A study of the electrochemical behavior at low temperature of the Li3V2(PO4)3 cathode material for Li-ion batteries. New J. Chem. 2015, 39 (12), 9617-96263.

[8]    X. Guo, L. N. Cong, Q. Zhao, L. H. Tai, X. L. Wu, J. P. Zhang, R. S. Wang, H. M. Xie*, L. Q. Sun*. Enhancement of electrochemical performance of LiNi1/3Co1/3Mn1/3O2: by surface modification with MnO2. J. Alloy. Comp. 2015, 651, 12-18.

[9]    Z. G. Gao, K. Sun, L. N. Cong, Y. H. Zhang, Q. Zhao, R. S. Wang, H. M. Xie*, L. Q. Sun, Z. M. Su. High performance 5 V LiNi0.5Mn1.5O4 spinel cathode materials synthesized by an improved solid-state method. J. Alloy. Comp.2016, 654, 257-263.

[10] J. C. Liu, H. Li, M. Batmunkh, X. Xiao, Y. Sun, Q. Zhao, X. Liu, Z. H. Huang*, T. Y. Ma*. Structural engineering to maintain the superior capacitance of molybdenum oxides at ultrahigh mass loadings. J. Mater. Chem. A.2019. 7(19), 23941-23948.

[11] Z. H. Huang, F. F. Sun, M. Batmunkh, W. H. Li, H. Li, Y. Sun, Q. Zhao, X. Liu, T. Y. Ma*. Zinc-nickel-cobalt ternary hydroxide nanoarrays for high-performance supercapacitors. J. Mater. Chem. A.2019, 7 (19), 11826-11835.

 

 

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