[1] X. H. Chen, X. L. Li, T. Li, J. H. Jia, J. L. Lei, N. B. Li, H. Q. Luo, Enhancing neutral hydrogen production by disrupting the rigid hydrogen bond network on Ru nanoclusters through Nb2O5-mediated water reorientation[J], Energy & Environmental Science 17 (2024) 5091-5101.
[2] X. H. Chen, T. Li, X. Li, J. Lei, N. B. Li, H. Q. Luo, Oxyanion-Coordinated Co-Based Catalysts for Optimized Hydrogen Evolution: The Feedback of Adsorbed Anions to the Catalytic Activity and Mechanism[J], ACS Catalysis 13 (2023) 6721-6729.
[3] X. H. Chen, H. C. Fu, X. L. Li, T. Li, Q. Zhang, Z. Q. Li, Y. H. Luo, J. L. Lei, N. B. Li, H. Q. Luo, Modulating the interfacial built-in electric field in oxygen vacancies-enriched Ru/MxOy@C (M = V, Nb, Ta) ordered macroporous heterojunctions for electrocatalytic hydrogen production[J], Chem. Eng. J. 467 (2023) 143374.
[4] X. H. Chen, J. Y. Ren, N. B. Li, H. Q. Luo, Constructing of CoP-Nb2O5 p-n heterojunction with built-in electric field to accelerate the charge migration in electrocatalytic hydrogen evolution[J], J. Colloid Interface Sci. 651 (2023) 760-768.
[5] X. H. Chen, H. C. Fu, L. L. Wu, X. L. Li, B. Yang, T. Li, F. Gu, J. L. Lei, N. B. Li, H. Q. Luo, Tuning the d-band center of NiC2O4 with Nb2O5 to optimize the Volmer step for hydrazine oxidation-assisted hydrogen production[J], Green Chemistry 24 (2022) 5559-5569.
[6] X. H. Chen, X. L. Li, L. L. Wu, H. Ch. Fu, J. Luo, L. Shen, Q. Zhang, J. L. Lei, H. Q. Luo*, N. B. Li*. Nb2O5–Ni3N heterojunction tuned by interface oxygen vacancy engineering for the enhancement of electrocatalytic hydrogen evolution activity[J]. Journal of Materials Chemistry A. 2021, 9/11563-11570.
[7] X. H. Chen, Q. Zhang , L. L. Wu , L. Shen , H. C. Fu , J. Luo , X. L. Li , J. L. Lei , H. Q. Luo*, N. B. Li*. Regulation of the electronic structure of Co4N with novel Nb to form hierarchical porous nanosheets for electrocatalytic overall water splitting[J]. Materials Today Physics. 2020,15/100268.
[8] H. C. Fu, X. H. Chen, B. Yang, Y. H. Luo, T. Li, X. H. Wang, Q. Zhang, X. L. Li, N. B. Li, H. Q. Luo, Unveiling the in-situ hydrogen intercalation in Mo2COx for promoting the alkaline hydrogen evolution reaction[J], Applied Catalysis B: Environmental 332 (2023) 122739.
[9] Y. Dai, H. C. Fu, X. H. Chen, Q. Zhang, T. Li, N. B. Li, H. Q. Luo, High efficient alkaline hydrogen evolution catalyzed by W2COx-Ru composite system containing bridged oxygen[J], Chem. Eng. J. 475 (2023) 146443.
[10] Y. H. Luo, H. C. Fu, X. H. Chen, B. J. Wang, B. Yang, N. B. Li, H. Q. Luo, Modulating adsorption energy on nickel nitride-supported ruthenium nanoparticles through in-situ electrochemical activation for urea-assisted alkaline hydrogen production[J], J. Colloid Interface Sci. 652 (2023) 1665-1672.
[11] W. W. Hong, X. H. Chen, X. D. Xiao, Z. W. Yan, M. M. Ren, H. Q. Luo, N. B. Li, Mo-doping induced band structures regulation in oxygen vacancies-rich Bi4O5Br2 nanosheets for improved visible-light photocatalysis[J], Appl. Surf. Sci. 690 (2025) 162603.