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Controlled Electrochemical Intercalation of Graphene/<i>h-</i>BN van der Waals Heterostructures
Zhao, S. Y. Frank,Elbaz, Giselle A.,Bediako, D. Kwabena,Yu, Cyndia,Efetov, Dmitri K.,Guo, Yinsheng,Ravichandran, Jayakanth,Min, Kyung-Ah,Hong, Suklyun,Taniguchi, Takashi,Watanabe, Kenji,Brus, Louis E. American Chemical Society 2018 Nano letters Vol.18 No.1
<P>Electrochemical intercalation is a powerful method for tuning the electronic properties of layered solids. In this work, we report an electrochemical strategy to controllably intercalate lithium ions into a series of van der Waals (vdW) heterostructures built by sandwiching graphene between hexagonal boron nitride (<I>h</I>-BN). We demonstrate that encapsulating graphene with <I>h</I>-BN eliminates parasitic surface side reactions while simultaneously creating a new heterointerface that permits intercalation between the atomically thin layers. To monitor the electrochemical process, we employ the Hall effect to precisely monitor the intercalation reaction. We also simultaneously probe the spectroscopic and electrical transport properties of the resulting intercalation compounds at different stages of intercalation. We achieve the highest carrier density >5 × 10<SUP>13</SUP> cm<SUP>2</SUP> with mobility >10<SUP>3</SUP> cm<SUP>2</SUP>/(V s) in the most heavily intercalated samples, where Shubnikov-de Haas quantum oscillations are observed at low temperatures. These results set the stage for further studies that employ intercalation in modifying properties of vdW heterostructures.</P> [FIG OMISSION]</BR>