J
Jiajie Zhu
Researcher at Shenzhen University
Publications - 58
Citations - 1956
Jiajie Zhu is an academic researcher from Shenzhen University. The author has contributed to research in topics: Silicene & Doping. The author has an hindex of 19, co-authored 54 publications receiving 1437 citations. Previous affiliations of Jiajie Zhu include Michigan Technological University & Tongji University.
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Journal ArticleDOI
SnSe2 2D Anodes for Advanced Sodium Ion Batteries
Fan Zhang,Chuan Xia,Jiajie Zhu,Bilal Ahmed,Hanfeng Liang,Dhinesh Babu Velusamy,Udo Schwingenschlögl,Husam N. Alshareef +7 more
TL;DR: In this paper, King Abdullah University of Science and Technology (KAUST), Kingdom of Saudi Arabia, has supported research reported in this manuscript was supported by KAUST Graduate Fellowship, and the authors also thanks Mr. Qiu Jiang, Dr. Manuel Roldan-Gutierrez, and Dr. Ali Behzad at core laboratories for several useful discussions.
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High-Rate and Ultralong Cycle-Life Potassium Ion Batteries Enabled by In Situ Engineering of Yolk–Shell FeS2@C Structure on Graphene Matrix
Yi Zhao,Yi Zhao,Jiajie Zhu,Samuel Jun Hoong Ong,Qianqian Yao,Xiuling Shi,Kun Hou,Zhichuan J. Xu,Lunhui Guan +8 more
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Active Edge Sites Engineering in Nickel Cobalt Selenide Solid Solutions for Highly Efficient Hydrogen Evolution
TL;DR: In this paper, an effective multifaceted strategy is demonstrated to increase active edge site concentration in Ni0.33Co0.67Se2 solid solutions prepared by in situ selenization process of nickel cobalt precursor.
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Boosting the Yield of MXene 2D Sheets via a Facile Hydrothermal-Assisted Intercalation
Fei Han,Shaojuan Luo,Luoyuan Xie,Jiajie Zhu,Wei Wei,Xian Chen,Fuwei Liu,Wei Chen,Jinlai Zhao,Lei Dong,Kuai Yu,Xierong Zeng,Feng Rao,Lei Wang,Yang Huang +14 more
TL;DR: This work proposes a facile hydrothermal-assisted intercalation (HAI) strategy to boost the yield of 2D sheets, achieving a record high value of 74%.
Journal ArticleDOI
Two-Dimensional SnO Anodes with a Tunable Number of Atomic Layers for Sodium Ion Batteries
TL;DR: The results indicate that as the number of atomic SnO layers in a sheet decreases, both the capacity and cycling stability of the Na ion battery improve, and it is demonstrated that ultrathin SnO nanosheets are promising SIB anode materials with high specific capacity, stable cyclability, and excellent rate performance.