主要论文 |
[1] Liao, H., Ma, H., Liu, C., Yao, Y., Du, W., Wu, Z., Pan, H., Yang, Y.*, Rui, X.* and Yu, Y.*, Bulk doping and grain boundary engineering of Na3Zr2Si2PO12 electrolyte for wide-temperature, external-pressure-free all-solid-state sodium batteries. Nano Energy, 2026, 111809. [2] Tang, Y., Yang, S., Liu, C., Yao, Y., Wu, Z., Du, W., Pan, H., Yang, Y.*, Rui, X.* and Yu, Y.*, Engineering calcium-doped Na3SbS4 with enhanced ion transport and interfacial compatibility for all-solid-state sodium-sulfur batteries. Nano Energy, 2026, 111736. [3] Yang, Y., Tang, F., Yang, S., Yao, Y., Xu, S., Liu, C., He, S., Yang, Y., Pan, H., Rui, X.* and Yu, Y.*, Dealloying engineering and interfacial catalyzing toward long‐lifespan anode‐free sodium metal battery. Advanced Materials, 2026, e20703. [4] Xu, S., Liu, C., Yang, Y*., Yao, Y., Yang, H., Rui, X.* and Yu, Y.*, ZIF‐8 functionalized separator regulating Na‐ion flux and enabling high‐performance sodium‐metal batteries. Small Methods, 2025, 9,.2402084. [5] Zhu, W., Xu, S., Yang, S., Yang, Y.* and Rui, X.*, 2025. Advanced Electrode Materials for Low‐Temperature Na Storage. Advanced Functional Materials, 35(14), p.2419173. [6] Tang, F., Yang, Y., Liu, C., Yang, S., Xu, S., Yao, Y., Yang, H., Yang, Y., He, S., Pan, H., Rui, X.* and Yu, Y.*, Initially anode-free sodium metal battery enabled by strain-engineered single-crystal aluminum substrate with (100)-preferred orientation. Nature Communications, 2025, 16, 2280. (共同一作) |
