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Observation of an intermediate state during lithium intercalation of twisted bilayer MoS2

Yecun Wu, Jingyang Wang, Yanbin Li, Jiawei Zhou, Bai Yang Wang, Ankun Yang, Lin‐Wang Wang, Harold Y. Hwang, Yi Cui

2022Nature Communications72 citationsDOIOpen Access PDF

Abstract

Abstract Lithium intercalation of MoS 2 is generally believed to introduce a phase transition from H phase (semiconducting) to T phase (metallic). However, during the intercalation process, a spatially sharp boundary is usually formed between the fully intercalated T phase MoS 2 and non-intercalated H phase MoS 2 . The intermediate state, i.e ., lightly intercalated H phase MoS 2 without a phase transition, is difficult to investigate by optical-microscope-based spectroscopy due to the narrow size. Here, we report the stabilization of the intermediate state across the whole flake of twisted bilayer MoS 2 . The twisted bilayer system allows the lithium to intercalate from the top surface and enables fast Li-ion diffusion by the reduced interlayer interaction. The E 2g Raman mode of the intermediate state shows a peak splitting behavior. Our simulation results indicate that the intermediate state is stabilized by lithium-induced symmetry breaking of the H phase MoS 2 . Our results provide an insight into the non-uniform intercalation during battery charging and discharging, and also open a new opportunity to modulate the properties of twisted 2D systems with guest species doping in the Moiré structures.

Topics & Concepts

BilayerIntercalation (chemistry)Lithium (medication)Materials scienceCrystallographyChemistryInorganic chemistryMembraneBiologyBiochemistryEndocrinology2D Materials and ApplicationsMXene and MAX Phase MaterialsGraphene research and applications