Tang, Y., Wang, Y., Zhou, K., & Engineering, S. o. M. a. A. (2022). In situ oxidation transformation of trimetallic selenide to amorphous FeCo-oxyhydroxide by self-sacrificing MoSe₂ for efficient water oxidation.
Chicago Style CitationTang, Yu-Jia, Yu Wang, Kun Zhou, and School of Mechanical and Aerospace Engineering. In Situ Oxidation Transformation of Trimetallic Selenide to Amorphous FeCo-oxyhydroxide By Self-sacrificing MoSe₂ for Efficient Water Oxidation. 2022.
MLA CitationTang, Yu-Jia, Yu Wang, Kun Zhou, and School of Mechanical and Aerospace Engineering. In Situ Oxidation Transformation of Trimetallic Selenide to Amorphous FeCo-oxyhydroxide By Self-sacrificing MoSe₂ for Efficient Water Oxidation. 2022.
Warning: These citations may not always be 100% accurate.