Controlled Preferential Oxidation of Grain Boundaries in Monolayer Tungsten Disulfide for Direct Optical Imaging
Citations Over TimeTop 10% of 2015 papers
Abstract
Synthetic 2D crystal films grown by chemical vapor deposition are typically polycrystalline, and determining grain size within domains and continuous films is crucial for determining their structure. Here we show that grain boundaries in the 2D transition metal dichalcogenide WS2, grown by CVD, can be preferentially oxidized by controlled heating in air. Under our developed conditions, preferential degradation at the grain boundaries causes an increase in their physical size due to oxidation. This increase in size enables their clear and rapid identification using a standard optical microscope. We demonstrate that similar treatments in an Ar environment do no show this effect, confirming that oxidation is the main role in the structural change. Statistical analysis of grain boundary (GB) angles shows dominant mirror formation. Electrical biasing across the GB is shown to lead to changes at the GB and their observation under an optical microscope. Our approach enables high-throughput screening of as-synthesized WS2 domains and continuous films to determine their crystallinity and should enable improvements in future CVD growth of these materials.
Related Papers
- → X-ray diffraction and infrared spectroscopy analyses on the crystallinity of engineered biological hydroxyapatite for medical application(2015)83 cited
- → A Comparative Study of The Crystallinity Value of Polyethylene Glycol-Based Composites Using XRD and WAXS(2022)4 cited
- → Effect of the Degree of Crystallinity on Friction and Wear of Poly(ethylene terephthalate)(1985)9 cited
- → The effect of the conditions of the treatment of gel on the crystallinity of the layered compound zirconium (IV) BIS(phosphite)(1990)3 cited
- Research on Crystallization Behavior of PVF Film during Processing(2008)