Growth Kinetics and Atomistic Mechanisms of Native Oxidation of ZrSxSe2-x and MoS2 Crystals. Academic Article uri icon


  • A thorough understanding of native oxides is essential for designing semiconductor devices. Here, we report a study of the rate and mechanisms of spontaneous oxidation of bulk single crystals of ZrSxSe2-x alloys and MoS2. ZrSxSe2-x alloys oxidize rapidly, and the oxidation rate increases with Se content. Oxidation of basal surfaces is initiated by favorable O2 adsorption and proceeds by a mechanism of Zr-O bond switching, that collapses the van der Waals gaps, and is facilitated by progressive redox transitions of the chalcogen. The rate-limiting process is the formation and out-diffusion of SO2. In contrast, MoS2 basal surfaces are stable due to unfavorable oxygen adsorption. Our results provide insight and quantitative guidance for designing and processing semiconductor devices based on ZrSxSe2-x and MoS2 and identify the atomistic-scale mechanisms of bonding and phase transformations in layered materials with competing anions.

published proceedings

  • Nano Lett

altmetric score

  • 1.5

author list (cited authors)

  • Jo, S. S., Singh, A., Yang, L., Tiwari, S. C., Hong, S., Krishnamoorthy, A., ... Jaramillo, R.

citation count

  • 15

complete list of authors

  • Jo, Seong Soon||Singh, Akshay||Yang, Liqiu||Tiwari, Subodh C||Hong, Sungwook||Krishnamoorthy, Aravind||Sales, Maria Gabriela||Oliver, Sean M||Fox, Joshua||Cavalero, Randal L||Snyder, David W||Vora, Patrick M||McDonnell, Stephen J||Vashishta, Priya||Kalia, Rajiv K||Nakano, Aiichiro||Jaramillo, R

publication date

  • January 2020