2023年

1. S. He, Y. Tu, J. Zhang*, L. Zhang, J. Ke, L. Wang, L. Du, Z. Cui*, and H. Song*. “Ammonia-induced fcc Ru Nanocrystals for Efficient Alkaline Hydrogen Electrocatalysis”. Small. 2023, 2308053.[PDF]

   

2.  M. Lu, L. Liang, B. Feng, Y. Chang, Z. Huang, H. Song, L. Du, S. Liao*, Z. Cui*，“Ultrafast carbothermal shock strategy enabled highly graphitic po‐ rous carbon supports for fuel cells”，Chinese Journal of Catalysis. 2023，52，228-238.[PDF]

   
   

   

3. L. Zhang, J. Zhang, W. Tan, C. Zhong, Y. Tu, H. Song, L. Du, S. Liao, and Z. Cui*，“Amorphous TiOx Stabilized Intermetallic Pt3Ti Nanocatalyst for Methanol Oxidation Reaction”，Nano Lett.2023, 23, 5187-5193.[PDF]

   
   

   

4. P. Luo, B. Zeng, W. Li, G. Zheng, K. Su, L. Liang, H. Song, L. Du, and Z. Cui*, “TiO₂-Induced Conversion Reaction Eliminating Li₂CO₃ and Pores/Voids Inside Garnet Electrolyte for Lithium–Metal Batteries”，Adv. Funct. Mater. 2023, 2302299.[PDF]
   

   

5. Zhang, J. Liu, L. Zhang, J. Ke, C. Zhong, Y. Tu, L. Wang, H., L., Z. Zhang, and Z. Cui*,“Fe³⁺-Preactivated Ni/Co-Based Antiperovskite Nitrides for   

   [PDF]. Boosting Oxygen Evolution: Surface Tuning and Catalytic Mechanism”, ACS Catal. 2023, 13, 5043−5052

   

6. J. Liu, L. Zhang, J. Liu, Z. Xu, J. Zhang, L. Liang, L. Du, H. Song, Y. Zhu, N. Li, Z. Cui*, “Surface engineered PdNFe₃ intermetallic electrocatalyst for boosting  oxygen reduction in alkaline media”, Applied Catalysis B: Environmental. 2023, 334,122807. [PDF]

   

7. L. Liang, M. Li, B. Zhang, J. Liang, B. Zeng, L. Wang, Y. Tang, G. Fu,* and Z. Cui*, “Ordered and Isolated Pd Sites Endow Antiperovskite-Type .        PdFe₃N with High CO-Tolerance for Formic Acid Electrooxidation”, Adv. Energy Mater. 2023, 2203803[PDF]

   

   
   

8. C. Zhong, J. Zhang, L. Zhang, Y. Tu, H. Song, L. Du, and Z. Cui*, “Composition-Tunable Co_3−xFe_xMo₃N Electrocatalysts for the Oxygen Evolution Reaction”, ACS Energy Lett. 2023, 8, 1455−1462[PDF]

   

9. L. Zhou , S. Liu , W. Li , H. Song , L. Du , Z. Cui *, “Highly conductive Poly(ε-caprolactone) and chitosan based polymer electrolyte for lithium metal battery”, Journal of Power Sources. 2023, 553, 232271[PDF]

   

   
   
   

10.   X. Pan, S. Yu, J. Zhang, L. Zhang, L. Wang, H. Song, L. Du, S. Liao, and Z. Cui*, “Universal Solid-Phase Seed-Mediated Synthesis of Monodisperse and Ultrasmall L1₀‑PtM Intermetallic Nanocrystals”, Chem. Mater. 2023, 35, 2559−2568[PDF]

    

11. K. Xu , L. Liang, J. Pan , K.Li, B. Zeng , Z. Cui* , Q.Liu *, “Understanding the key role of the surface structure of L1₁-ordered PtCu intermetallic electrocatalyst toward methanol oxidation reaction by dealloying methods”, Applied Surface Science. 2023, 618, 15657  [PDF]

    

    
    
    

12. J. Huang, T. Yan, M. Tao, W. Zhang, W. Li, G. Zheng, L. Du, Z. Cui, X. Wang, S. Liao, H. Song *, “Localized high-concentration carbonate electrolyte creating functional in situ interfaces: Side reaction inhibition for lithium sulfur batteries”, Journal of Power Sources. 2023, 563, 232783[PDF]

13. J. Huang, M. Tao, W. Zhang, G. Zheng, L. Du, Z. Cui, X. Wang, Z. Liang, S. Liao, and H.Song, “Realizing a “solid to solid” process via in situ cathode electrolyte interface (CEI) by solvent-in-salt electrolyte for Li-S batteries”, Nano Rewearch. 2023, DOI:10.1007/s12274-023-5443-2[PDF]

14. W. Zou, G. Jiang, W. Zhang, L. Zhang, Z. Cui, H. Song, Z. Liang, and L. Du*, “Hierarchically Macro–Microporous Covalent Organic Frameworks for Efficient Proton Conduction”, Adv. Funct. Mater. 2023, 2213642  [PDF]