1. Meiling Xiao, et al., 3d-Orbital Occupancy Regulated Ir-Co Atomic Pair Toward Superior Bifunctional Oxygen Electrocatalysis, ACS Catalysis 2021, 11, 8837-8846 (IF=12.35)
2. Meiling Xiao, et al., Preferentially Engineering FeN4 Edge Sites onto Graphitic Nanosheets for Highly Active and Durable Oxygen Electrocatalysis in Rechargeable Zn–Air Batteries. Advanced Materials. 2020, 32, 2004900. (IF=27.40)
3. Meiling Xiao, et al., A single‐atom iridium heterogeneous catalyst in oxygen reduction reaction. Angewandte Chemie International Edition. 2019, 131: 9742 – 9747. (IF=12.96)
4. Meiling Xiao, et al., Climbing the apex of the ORR volcano plot via binuclear site construction: electronic and geometric engineering. Journal of the American Chemical Society. 2019, 141: 17763–17770. (IF=14.61)
5. Meiling Xiao, et al., Engineering energy level of metal center: Ru single-atom site for efficient and durable oxygen reduction catalysis. Journal of the American Chemical Society. 2019, 141, 50, 19800–19806 (IF=14.61).
6. Meiling Xiao, et al., Identification of binuclear Co2N5 active sites for oxygen reduction reaction with more than one magnitude higher activity than single atom CoN4 site. Nano Energy. 2018,46, 396-403 (IF=16.60)
7. Meiling Xiao, et al., Microporous framework induced synthesis of single-atom dispersed Fe-NC acidic ORR catalyst and its in situ reduced Fe-N4 active site identification revealed by X-ray absorption spectroscopy. ACS Catalysis. 2018, 8: 2824–2832. (IF=12.35)
8. Meiling Xiao, et al., Meso/macroporous nitrogen‐doped carbon architectures with iron carbide encapsulated in graphitic layers as an efficient and robust catalyst for the oxygen reduction reaction in both acidic and alkaline solutions. Advanced Materials. 2015, 27: 2521-2527. (IF=27.40)
9. Meiling Xiao, et al., A "trimurti" heterostructured hybrid with an intimate CoO/CoxP interface as a robust bifunctional air electrode for rechargeable Zn–air batteries. Journal of Materials Chemistry A. 2020,8, 9177-9184 (IF=11.30)
10. Meiling Xiao, et al., Rapid synthesis of a PtRu nano-sponge with different surface compositions and performance evaluation for methanol electrooxidation. Nanoscale. 2015, 7(21): 9467-9471. (IF=6.86)