Zhijie Wang
School of Chemical Engineering and Advanced Materials
Faculty of Sciences, Engineering and Technology
Zhijie Wang received his Bachelor’s degree from Jilin University, China in 2014 and Master’s degree from University of Science and Technology of China in 2017. After that he joined Prof. Zaiping Guo’s research group as a Ph.D student at the Institute for Superconducting and Electronic Materials, University of Wollongong, Australia. He received his Ph.D degree in July, 2021. His research focuses on developing advanced electrode materials and electrolytes for high-energy-density batteries.
Dr. Zhijie Wang's research focuses on developing advanced electrode materials and electrolytes for high-energy-density batteries.
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Education
Date Institution name Country Title 2017 - 2021 University of Wollongong Australia PhD 2014 - 2017 University of Science and Technology of China China Master 2010 - 2014 Jilin University China Bachelor -
Research Interests
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Journals
Year Citation 2022 Wang, Y., Wang, Z., Yang, F., Liu, S., Zhang, S., Mao, J., & Guo, Z. (2022). Electrolyte engineering enables high performance zinc-ion batteries. Small, 2107033-1-2107033-20.
Scopus18 WoS192022 Zhang, S., Sun, L., Fan, Q., Zhang, F., Wang, Z., Zou, J., . . . Guo, Z. (2022). Challenges and prospects of lithium–CO
<sub>2</sub> batteries. Nano Research Energy, 1, e9120001.
2022 Zhao, L., Ding, B., Qin, X. Y., Wang, Z., Lv, W., He, Y. B., . . . Kang, F. (2022). Revisiting the Roles of Natural Graphite in Ongoing Lithium-Ion Batteries. Advanced Materials, 34(18), 32 pages.
Scopus5 WoS32022 Huang, C., Wang, Z., Wang, H., Huang, D., Zhao, J. W., & Zhao, S. X. (2022). In-situ construction of extra ion-store sites and fast ion-diffusion channels for lithium-rich manganese-based oxides cathode. Journal of Power Sources, 535, 8 pages.
Scopus12022 Mao, J., Wang, C., Lyu, Y., Zhang, R., Wang, Y., Liu, S., . . . Guo, Z. (2022). Organic electrolyte design for practical potassium-ion batteries. Journal of Materials Chemistry A, 1-17.
Scopus6 WoS62022 Wang, Z., Wang, Y., Li, B., Bouwer, J. C., Davey, K., Lu, J., & Guo, Z. (2022). Non-Flammable Ester Electrolyte with Boosted Stability Against Li for High-Performance Li metal Batteries. Angewandte Chemie International Edition, e202206682-1-e202206682-11.
2022 Huang, C., Wang, Z., Wang, H., Huang, D., He, Y. B., & Zhao, S. X. (2022). Mg<sup>2+</sup> doping into Li sites to improve anionic redox reversibility and thermal stability of lithium-rich manganese-based oxides cathode. Materials Today Energy, 29, 101116.
2021 Zeng, X., Mao, J., Hao, J., Liu, J., Liu, S., Wang, Z., . . . Guo, Z. (2021). Electrolyte design for in situ construction of highly Zn²⁺-conductive solid electrolyte interphase to enable high-performance aqueous Zn-Ion batteries under practical conditions. Advanced Materials, 33(11), 1-11.
Scopus176 WoS173 Europe PMC22021 Wang, Y., Wang, Z., Zhao, L., Fan, Q., Zeng, X., Liu, S., . . . Guo, Z. (2021). Lithium metal electrode with increased air stability and robust solid electrolyte interphase realized by silane coupling agent modification. Advanced Materials, 33(14), 2008133-1-2008133-9.
Scopus57 WoS51 Europe PMC32021 Wang, Z., Wang, Y., Wu, C., Pang, W. K., Mao, J., & Guo, Z. (2021). Constructing nitrided interfaces for stabilizing Li metal electrodes in liquid electrolytes. Chemical Science, 12(26), 8945-8966.
Scopus19 WoS202021 Huang, C., Fang, Z. Q., Wang, Z. J., Zhao, J. W., Zhao, S. X., & Ci, L. J. (2021). Accelerating the activation of Li<inf>2</inf>MnO<inf>3</inf>in Li-rich high-Mn cathodes to improve its electrochemical performance. Nanoscale, 13(9), 4921-4930.
Scopus5 WoS42021 Huang, C., Wang, Z., Fang, Z. -Q., Zhao, S. -X., & Ci, L. -J. (2021). Achieving high initial coulombic efficiency and low voltage dropping in Li-rich Mn-based cathode materials by Metal-Organic frameworks-derived coating. Journal of Power Sources, 499, 1-8.
Scopus15 WoS122020 Zeng, X., Liu, J., Mao, J., Hao, J., Wang, Z., Zhou, S., . . . Guo, Z. (2020). Toward a reversible Mn⁴⁺/Mn²⁺ redox reaction and dendrite-free Zn anode in near-neutral aqueous Zn/MnO₂ batteries via salt anion chemistry. Advanced Energy Materials, 10(32), 1904163-1-1904163-9.
Scopus114 WoS1072020 Wang, Z., Wang, Y., Zhang, Z., Chen, X., Lie, W., He, Y. B., . . . Guo, Z. (2020). Building artificial solid-electrolyte interphase with uniform intermolecular ionic bonds toward dendrite-free lithium metal anodes. Advanced Functional Materials, 30(30), 2002414-1-2002414-10.
Scopus69 WoS672020 Liu, S., Mao, J., Zhang, Q., Wang, Z., Pang, W. K., Zhang, L., . . . Guo, Z. (2020). An intrinsically non-flammable electrolyte for high-performance potassium batteries. Angewandte Chemie - International Edition, 59(9), 3638-3644.
Scopus140 WoS143 Europe PMC32019 Wang, Z., Gao, H., Zhang, Q., Liu, Y., Chen, J., & Guo, Z. (2019). Recent advances in 3D graphene architectures and their composites for energy storage applications. Small, 15(3), 1803858-1-1803858-21.
Scopus84 WoS74 Europe PMC72019 Zhang, Q., Didier, C., Pang, W. K., Liu, Y., Wang, Z., Li, S., . . . Guo, Z. (2019). Structural insight into layer gliding and lattice distortion in layered manganese oxide electrodes for potassium-ion batteries. Advanced Energy Materials, 9(30), 1900568-1-1900568-9.
Scopus89 WoS942019 Zeng, X., Hao, J., Wang, Z., Mao, J., & Guo, Z. (2019). Recent progress and perspectives on aqueous Zn-based rechargeable batteries with mild aqueous electrolytes. Energy Storage Materials, 20, 410-437.
Scopus326 WoS3192018 Wang, Y., Wang, Z., Yu, X., Li, B., Kang, F., & He, Y. B. (2018). Hierarchically structured carbon nanomaterials for electrochemical energy storage applications. Journal of Materials Research, 33(9), 1058-1073.
Scopus25 WoS242018 Zhang, Q., Wang, Z., Zhang, S., Zhou, T., Mao, J., & Guo, Z. (2018). Cathode materials for potassium-ion batteries: current status and perspective. Electrochemical Energy Reviews, 1(4), 625-658.
Scopus149 WoS1502018 Wang, Y., Wang, Z., Lei, D., Lv, W., Zhao, Q., Ni, B., . . . He, Y. B. (2018). Spherical Li Deposited inside 3D Cu Skeleton as Anode with Ultrastable Performance. ACS Applied Materials and Interfaces, 10(24), 20244-20249.
Scopus81 WoS80 Europe PMC22018 Wang, Z., Wang, Y., Wang, W., Yu, X., Lv, W., Xiang, B., & He, Y. B. (2018). High-level heteroatom doped two-dimensional carbon architectures for highly efficient lithium-ion storage. Frontiers in Chemistry, 6(APR), 1-10.
Scopus21 WoS5 Europe PMC12017 Wei, Y., Wang, Z., Ye, H., Mou, J., Lei, D., Liu, Y., . . . He, Y. B. (2017). A Stable Cross-Linked Binder Network for SnO2 Anode with Enhanced Sodium-Ion Storage Performance. ChemistrySelect, 2(35), 11365-11369.
Scopus11 WoS102017 Wang, F., Liu, Y., Zhao, Y., Wang, Y., Wang, Z., Zhang, W., & Ren, F. (2017). Facile synthesis of two-dimensional porous MgCo<inf>2</inf>O<inf>4</inf> nanosheets as anode for lithium-ion batteries. Applied Sciences (Switzerland), 8(1), 8 pages.
Scopus97 WoS932017 Kaneti, Y. V., Zhang, J., He, Y. B., Wang, Z., Tanaka, S., Hossain, M. S. A., . . . Yamauchi, Y. (2017). Fabrication of an MOF-derived heteroatom-doped Co/CoO/carbon hybrid with superior sodium storage performance for sodium-ion batteries. Journal of Materials Chemistry A, 5(29), 1-11.
Scopus270 WoS2702017 Li, J., Sun, Q., Wang, Z., Xiang, J., Zhao, B., Qu, Y., & Xiang, B. (2017). NbSe3 nanobelts wrapped by reduced graphene oxide for lithium ion battery with enhanced electrochemical performance. Applied Surface Science, 412, 113-120.
Scopus7 WoS62016 Wang, Z., Yu, X., He, W., Kaneti, Y. V., Han, D., Sun, Q., . . . Xiang, B. (2016). Construction of a Unique Two-Dimensional Hierarchical Carbon Architecture for Superior Lithium-Ion Storage. ACS Applied Materials and Interfaces, 8(49), 33399-33404.
Scopus19 WoS20 Europe PMC52016 Sun, Q., Wang, Z., Zhang, Z., Yu, Q., Qu, Y., Zhang, J., . . . Xiang, B. (2016). Rational Design of Graphene-Reinforced MnO Nanowires with Enhanced Electrochemical Performance for Li-Ion Batteries. ACS Applied Materials and Interfaces, 8(10), 6303-6308.
Scopus81 WoS78 Europe PMC82016 Li, J., Sun, Q., Wang, Z., Li, M., Cui, X., & Xiang, B. (2016). Rational design of binder-free Sn film anode for lithium ion batteries. Materials Express, 6(6), 509-514.
Scopus1 WoS1Wang, Z., Wang, Y., Li, B., Bouwer, J. C., Davey, K., Lu, J., & Guo, Z. (n.d.). Non‐Flammable Ester Electrolyte with Boosted Stability Against Li for High‐Performance Li metal Batteries. Angewandte Chemie.
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