Interfacial engineering of TiO2@Bi-BiOBr by constructing hierarchical core–shell heterojunction to boost charge transfer for photothermal CO2 reduction.

MLA

Wang, Kun, et al. “Interfacial Engineering of TiO2@Bi-BiOBr by Constructing Hierarchical Core–shell Heterojunction to Boost Charge Transfer for Photothermal CO2 Reduction.” Applied Surface Science, vol. 664, Aug. 2024, p. N.PAG. EBSCOhost, https://doi.org/10.1016/j.apsusc.2024.160205.

APA

Wang, K., Yu, S., Jiang, P., Liu, W., Yuan, M.-M., Tong, W., Chen, L., Deng, Z., & Su, B. (2024). Interfacial engineering of TiO2@Bi-BiOBr by constructing hierarchical core–shell heterojunction to boost charge transfer for photothermal CO2 reduction. Applied Surface Science, 664, N.PAG. https://doi.org/10.1016/j.apsusc.2024.160205

Chicago

Wang, Kun, Shen Yu, Peng Jiang, Wenrui Liu, Man-Man Yuan, Wangyu Tong, Lihua Chen, Zhao Deng, and Baolian Su. 2024. “Interfacial Engineering of TiO2@Bi-BiOBr by Constructing Hierarchical Core–shell Heterojunction to Boost Charge Transfer for Photothermal CO2 Reduction.” Applied Surface Science 664 (August): N.PAG. doi:10.1016/j.apsusc.2024.160205.