Structure, principle, and application of magnetic field-assisted pulsed laser deposition: An overview
Y Lu, C Yang, H Wang, L Ma, M Xu, L Xi - Vacuum, 2023 - Elsevier
One of the most significant developments in pulsed laser deposition (PLD) technology is the
introduction of external magnetic fields to affect the generation, expansion, diffusion, and …
introduction of external magnetic fields to affect the generation, expansion, diffusion, and …
Microstructure morphology and concentration modulation of nanocomposite thin-films during simulated physical vapor deposition
JA Stewart, R Dingreville - Acta Materialia, 2020 - Elsevier
Metallic, nanocomposite, thin-films with intertwined morphologies can be synthesized via
physical vapor deposition of two immiscible metals. Understanding the phase-ordering …
physical vapor deposition of two immiscible metals. Understanding the phase-ordering …
Linking simulated polycrystalline thin film microstructures to physical vapor deposition conditions
JM Monti, JA Stewart, JO Custer, DP Adams, D Depla… - Acta Materialia, 2023 - Elsevier
We present a generalized multi-phase-field model to predict the growth of polycrystalline
thin films fabricated by physical vapor deposition. The model accounts for the explicit …
thin films fabricated by physical vapor deposition. The model accounts for the explicit …
A data-driven surrogate model to rapidly predict microstructure morphology during physical vapor deposition
E Herman, JA Stewart, R Dingreville - Applied Mathematical Modelling, 2020 - Elsevier
Here, we present a surrogate model that rapidly predicts the microstructures of a binary-alloy
thin film during physical vapor deposition. This surrogate model is constructed and trained …
thin film during physical vapor deposition. This surrogate model is constructed and trained …
Taming martensitic transformation via concentration modulation at nanoscale
Martensitic transformation (MT) is typically a strongly first-order transition with autocatalysis
in nucleation followed by rapid growth. It usually takes place within a narrow temperature or …
in nucleation followed by rapid growth. It usually takes place within a narrow temperature or …
HiPIMS and RF magnetron sputtered Al0. 5CoCrFeNi2Ti0. 5 HEA thin-film coatings: Synthesis and characterization
High entropy alloy (HEA) thin-film coatings have gained popularity in surface engineering
applications because of their excellent physical, mechanical, and electrochemical …
applications because of their excellent physical, mechanical, and electrochemical …
Effects of substrate temperature and deposition rate on the phase separated morphology of co-sputtered, Cu-Mo thin films
We report on the evolution of phase-separated morphologies in co-sputtered Cu-Mo films as
a result of varying substrate temperature and deposition rate during deposition. A transition …
a result of varying substrate temperature and deposition rate during deposition. A transition …
Suppression of shear banding in high-strength Cu/Mo nanocomposites with hierarchical bicontinuous intertwined structures
The microstructures and mechanical behavior of high-temperature co-sputtered Cu/Mo
nanocomposites were investigated and compared with Cu/Mo multilayers. The co-sputtered …
nanocomposites were investigated and compared with Cu/Mo multilayers. The co-sputtered …
Composite epitaxial thin films: A new platform for tuning, probing, and exploiting mesoscale oxides
Self-assembled epitaxial oxide composite films represent a new material form in which very
high-quality mesoscopic structures can be created. The main focus has been on coupled …
high-quality mesoscopic structures can be created. The main focus has been on coupled …