Abstract

Abstract Au‐mediated exfoliation of 2D transition‐metal dichalcogenides (TMDs) has received significant attention due to its ability to produce large‐area monolayer (ML) flakes. This process has been attributed to strong TMD/Au binding energy (BE) as well as the uniform strain between the TMDs and Au. However, large‐area exfoliation of TMDs with other metals that have even stronger theoretical BE than Au/TMD is not successful, leading to question whether the BE plays any role in the exfoliation process. Here, successful demonstration of large‐area ML MoS 2 using Cu, Ni, and Ag with various predicted strain, including Pd with almost no strain, but stronger BE than Au/MoS 2 is demonstrated. Optical micrographs show MoS 2 flakes with 100s of µm in size with a yield of several tens to hundreds of ML flakes per exfoliation. Photoluminescence and Raman spectroscopy confirm the ML nature of the flakes, while electrical transport measurements show mobilities of ≈ 6 cm 2 V −1 s −1 with a current on‐off ratio ≈ 10 8 consistent with high‐quality ML MoS 2 . Given that MoS 2 can be exfoliated with metals that have strong BE irrespective of their strain values suggests that BE is the primary mechanism in successful exfoliation of large‐area ML MoS 2 .