Nano-TiO2 anchored onto 2D Cu–Ni bimetallic MOF as a heterojunction for highly-efficient OER overpotential reduction.

MLA

Li, Ya-Dong, et al. “Nano-TiO2 Anchored onto 2D Cu–Ni Bimetallic MOF as a Heterojunction for Highly-Efficient OER Overpotential Reduction.” New Journal of Chemistry, vol. 48, no. 7, Feb. 2024, pp. 2979–91. EBSCOhost, https://doi.org/10.1039/d3nj05603a.

APA

Li, Y.-D., Mou, C.-L., Ma, W.-L., Chen, S.-H., Tang, Z.-Y., & Deng, H.-B. (2024). Nano-TiO2 anchored onto 2D Cu–Ni bimetallic MOF as a heterojunction for highly-efficient OER overpotential reduction. New Journal of Chemistry, 48(7), 2979–2991. https://doi.org/10.1039/d3nj05603a

Chicago

Li, Ya-Dong, Chuan-Lin Mou, Wen-Long Ma, Shi-Hao Chen, Zi-Yu Tang, and Hong-Bo Deng. 2024. “Nano-TiO2 Anchored onto 2D Cu–Ni Bimetallic MOF as a Heterojunction for Highly-Efficient OER Overpotential Reduction.” New Journal of Chemistry 48 (7): 2979–91. doi:10.1039/d3nj05603a.