Ta, H. T. T., Tran, N. V., Righi, M. C., & Engineering, S. o. M. S. a. (2024). Atomistic wear mechanisms in diamond: Effects of surface orientation, stress, and interaction with adsorbed molecules.
Chicago Style CitationTa, Huong Thi Thuy, Nam Van Tran, Maria Clelia Righi, and School of Materials Science and Engineering. Atomistic Wear Mechanisms in Diamond: Effects of Surface Orientation, Stress, and Interaction With Adsorbed Molecules. 2024.
MLA CitationTa, Huong Thi Thuy, Nam Van Tran, Maria Clelia Righi, and School of Materials Science and Engineering. Atomistic Wear Mechanisms in Diamond: Effects of Surface Orientation, Stress, and Interaction With Adsorbed Molecules. 2024.
Warning: These citations may not always be 100% accurate.