Atomic Layer Deposition of Crystalline MoS 2 Thin Films: New Molybdenum Precursor for Low‐Temperature Film Growth

Molybdenum disulfide (MoS 2 ) is a semiconducting 2D material, which has evoked wide interest due to its unique properties. However, the lack of controlled and scalable methods for the production of MoS 2 films at low temperatures remains a major hindrance on its way to applications. In this work, atomic layer deposition (ALD) is used to deposit crystalline MoS 2 thin films at a relatively low temperature of 300 °C. A new molybdenum precursor, Mo(thd) 3 (thd = 2,2,6,6‐tetramethylheptane‐3,5‐dionato), is synthesized, characterized, and used for film deposition with H 2 S as the sulfur precursor. Self‐limiting growth with a low growth rate of ≈0.025 Å cycle −1 , straightforward thickness control, and large‐area uniformity are demonstrated. Film crystallinity is found to be relatively good considering the low deposition temperature, but the films have significant surface roughness. Additionally, chemical composition as well as optical and wetting properties are evaluated. MoS 2 films are deposited on a variety of substrates, which reveal notable differences in growth rate, surface morphology, and crystallinity. The growth of crystalline MoS 2 films at comparably low temperatures by ALD contributes toward the use of MoS 2 for applications with a limited thermal budget.