Reactive MD simulation on the formation of amorphous sub-nano alumina layer

Yuxuan Lu; Devon Romine; Jagaran Acharya; Judy Wu; Ridwan Sakidja

Reactive MD simulation on the formation of amorphous sub-nano alumina layer

ORAL

Abstract

In this study, we systematically performed the large-scale classical reactive molecular dynamics (MD) simulations of Atomic Layer Deposition (ALD) processes to model the formation of amorphous alumina sub-nanolayer water. The ALD process used water and (Trimethyl-Aluminum) TMA precursors deposited onto the surface of an aluminum wetting layer. We varied the sizes of the substrate and the concentrations of water/hydroxide precursors with a range of temperature to design the most favorable configurations for the subsequent TMA precursors to add onto. The role of crystallographic orientation of the Al wetting layer was also investigated and compared with the experimental findings.

^*The support from NSF (Grant No. 1809284) “Collaborative Research: Development of Atomically Thin Tunnel Barriers for High-Performance Tunnel Junctions” from the Electronics, Photonics and Magnetic Devices (EPMD) Program is gratefully acknowledged.

March 2, 2020, 8:36 AM – March 2, 2020, 8:48 AM

Presenters

Yuxuan Lu
- Missouri State Univ

Authors

Yuxuan Lu
- Missouri State Univ
Devon Romine
- Missouri State Univ
Jagaran Acharya
- University of Kansas
Judy Wu
- University of Kansas
Ridwan Sakidja
- Department of Physics, Astronomy, and Materials Science, Missouri State University
- Missouri State Univ