Miss Qinqin Cai
Higher Degree by Research Candidate
School of Chemical Engineering
College of Engineering and Information Technology
Electrolyte design and failure mechanism for zinc-based batteries.
| Year | Citation |
|---|---|
| 2025 | Cai, Q., Li, G., Kong, D., Xu, J., Cai, J., Xie, Z., . . . Li, W. (2025). Synergistic effects of film-forming and film-modifying additives for enhanced all-climate performance of graphite/NMC622 pouch cells. Chemical Engineering Journal, 505, 159156. Scopus2 |
| 2025 | Li, G., Dong, D., Bedrov, D., Cai, Q., Wu, H., Wang, Z., . . . Li, W. (2025). Correlating electrode nano-confinement to interphase chemistry. Joule, 9(4), 101874. Scopus4 |
| 2025 | Li, G., Cai, Q., Zhang, S., Yuwono, J. A., Mao, L., Jin, H., & Guo, Z. (2025). Decoupled dual-salt electrolyte for practical aqueous zinc batteries. Nature Sustainability, 8(11), 1349-1359. Scopus4 WoS4 |
| 2025 | Yin, L., Ding, Y., Cai, Q., Du, T., Dong, C., Teng, Q., . . . Zhang, X. (2025). Polyiodide Scavenger by Reversible Transformation of Amino Acid Enables Shuttle-Free and Dendrite-Free Zn-Iodine Batteries. Advanced Functional Materials, 10 pages. |
| 2024 | Tang, Z., Xie, Z., Cai, Q., Xia, Z., Chen, Q., Liang, W., . . . Li, W. (2024). Unlocking superior safety, rate capability, and low-temperature performances in LiFePO₄ power batteries. Energy Storage Materials, 67, 103309-1-103309-10. |
| 2024 | Wei, Z., Kong, D., Quan, L., He, J., Liu, J., Tang, Z., . . . Li, W. (2024). Removing electrochemical constraints on polytetrafluoroethylene as dry-process binder for high-loading graphite anodes. Joule, 8(5), 1350-1363. |
| 2024 | Mao, L., Li, G., Zhang, B., Wen, K., Wang, C., Cai, Q., . . . Zhang, S. (2024). Functional Hydrogels for Aqueous Zinc-Based Batteries: Progress and Perspectives. Advanced Materials, 37(46), 2416345-1-2416345-27. Scopus11 WoS26 Europe PMC10 |
| 2023 | Xie, Z., He, J., Xia, Z., Cai, Q., Tang, Z., Cai, J., . . . Li, W. (2023). Synergistic interphase modification with dual electrolyte additives to boost cycle stability of high nickel cathode for all-climate battery. Journal of Energy Chemistry, 86, 197-207. |
| 2023 | Cai, Q., Jia, H., Li, G., Xie, Z., Zhou, X., Ma, Z., . . . Li, W. (2023). Outstanding performances of graphite. Journal of Energy Chemistry, 81, 593-602. Scopus19 |
| 2023 | Li, G., Mo, C., Cai, Q., Li, Z., Li, W., & Liao, Y. (2023). Degradation mechanism of LiNi<inf>0.8</inf>Co<inf>0.1</inf>Mn<inf>0.1</inf>O<inf>2</inf> cathode after ambient storage and self-repairing strategy by electrolyte additive. Chemical Engineering Journal, 471, 144382. Scopus14 |
| 2022 | Li, G., Li, Z., Cai, Q., Yan, C., Xing, L., & Li, W. (2022). Construction of Low-Impedance and High-Passivated Interphase for Nickel-Rich Cathode by Low-Cost Boron-Containing Electrolyte Additive. ChemSusChem, 15(11), e202200543. Scopus16 WoS17 Europe PMC2 |
| 2022 | Li, G., Feng, Y., Zhu, J., Mo, C., Cai, Q., Liao, Y., & Li, W. (2022). Achieving a Highly Stable Electrode/Electrolyte Interface for a Nickel-Rich Cathode via an Additive-Containing Gel Polymer Electrolyte. ACS Applied Materials and Interfaces, 14(32), 36656-36667. Scopus34 WoS33 Europe PMC9 |
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