Mr Yiran Jiao
ARC Grant-Funded Researcher A
School of Chemical Engineering
College of Engineering and Information Technology
My research focus on the Artificial-Intelligence (AI) assisted computational simulation on chemical process, especially on electrochemistry.
| Date | Institution name | Country | Title |
|---|---|---|---|
| 2017 - 2020 | Beijing University of Chemical Technology | China | M.Eng. |
| 2013 - 2017 | East China University of Science and Technology | China | B.Eng. |
| Year | Citation |
|---|---|
| 2024 | Wu, H., Hao, J., Jiang, Y., Jiao, Y., Liu, J., Xu, X., . . . Qiao, S. -Z. (2024). Alkaline-based aqueous sodium-ion batteries for large-scale energy storage. Nature Communications, 15(1), 575-1-575-. Scopus125 WoS123 Europe PMC41 |
| 2024 | Liu, T., Wu, H., Wang, H., Jiao, Y., Du, X., Wang, J., . . . Cui, G. (2024). A Molecular-Sieving Interphase Towards Low-Concentrated Aqueous Sodium-Ion Batteries.. Nano-micro letters, 16(1), 144. Scopus14 WoS13 Europe PMC5 |
| 2024 | Guo, J., Haghshenas, Y., Jiao, Y., Kumar, P., Yakobson, B. I., Roy, A., . . . Xia, Z. (2024). Rational Design of Earth-Abundant Catalysts toward Sustainability. Advanced Materials, 36(42), 2407102-1-2407102-34. Scopus40 WoS34 Europe PMC11 |
| 2023 | Jiao, Y., Li, H., Jiao, Y., & Qiao, S. -Z. (2023). Activity and Selectivity Roadmap for C-N Electro-Coupling on MXenes. J Am Chem Soc, 145(28), 15572-15580. Scopus81 WoS82 Europe PMC23 |
| 2022 | Jiao, Y., Deng, L., Liu, D., Jiao, Y., Wang, D., & Chen, J. -F. (2022). Process intensification for Fe/Mn-nitrogen-doped carbon-based catalysts toward efficient oxygen reduction reaction of Zn-air battery. Chemical Engineering Science, 259, 9 pages. Scopus11 WoS10 |
| 2022 | Jiao, Y., Liu, J., Wang, F., Pu, Y., Cai, F., & Wang, D. (2022). Green Synthesis of Deep Ultraviolet Response Nanophosphors with Tunable Full-visible-spectra Emission for Luminescent Temperature Sensing. Current Applied Materials, 1(1). |
| 2022 | Deng, L., Jiao, Y., Pu, Y., Liu, D., & Wang, D. (2022). Synthesis of poly (2,6-diaminopyridine) using a rotating packed bed toward efficient production of polypyrrole-derived electrocatalysts. Reaction Chemistry & Engineering, 7(12), 2611-2617. Scopus1 WoS1 |
| 2021 | Liu, J., Jiao, Y., Pu, Y., Wang, J., & Wang, D. (2021). Scalable synthesis of ytterbium and erbium codoped calcium molybdate phosphors as upconversion luminescent thermometer. AIChE Journal, 67(11), 11 pages. Scopus14 WoS14 |
| 2021 | Cui, S., Jiao, Y., Liu, J., Pu, Y., Wang, J. -X., & Wang, D. (2021). High-gravity-driven process intensified approach toward Mn2+ doped Zn2GeO4 nanophosphors for deep-ultraviolet detecting. Optik, 235, 166644. Scopus9 WoS9 |
| 2020 | Jiao, Y., Ling, C., Wang, J. X., Amanico, H., Saczek, J., Wang, H., . . . Wang, D. (2020). Controllable Synthesis of Upconversion Nanophosphors toward Scale-Up Productions. Particle and Particle Systems Characterization, 37(9), 13 pages. Scopus24 WoS21 |
| 2019 | Jiao, Y., Pu, Y., Wang, J. X., Wang, D., & Chen, J. F. (2019). Process Intensified Synthesis of Rare-Earth Doped β-NaYF4 Nanorods toward Gram-Scale Production. Industrial and Engineering Chemistry Research, 58(49), 22306-22314. Scopus13 WoS13 |
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