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Scalable Synthesis of Bilayer Graphene at Ambient Temperature

Xiaolong Zhu, Zhikang Su, Ran Tan, Cunlan Guo, Xinping Ai, Jiangfeng Qian

2024Journal of the American Chemical Society27 citationsDOI

Abstract

In this work, we develop for the first time a facile chemical lithiation-assisted exfoliation approach to the controllable and scalable preparation of bilayer graphene. Biphenyl lithium (Bp-Li), a strong reducing reagent, is selected to realize the spontaneous Li-intercalation into graphite at ambient temperature, forming lithium graphite intercalation compounds (Li-GICs). The potential of Bp-Li (0.11 V vs Li/Li + ), which is just lower than the potential of stage-2 lithium intercalation (0.125 V), enables the precise lithiation of graphite to stage-2 Li-GICs (LiC 12 ). Intriguingly, the exfoliation of LiC 12 leads to the bilayer-favored production of graphene, giving a high selectivity of 78%. Furthermore, the mild intercalation–exfoliation procedure yields high-quality graphene with negligible structural deterioration. The obtained graphene exhibits ultralow defect density ( I D / I G ∼ 0.14) and a considerably high C/O ratio (∼29.7), superior to most current state-of-the-art techniques. This simple and scalable strategy promotes the understanding of chemical Li-intercalation methods for preparing high-quality graphene and shows great potential for layer-controlled engineering.

Topics & Concepts

ChemistryGrapheneBilayerNanotechnologyScalabilityBilayer grapheneMembraneMaterials scienceBiochemistryComputer scienceDatabaseGraphene research and applicationsGraphene and Nanomaterials Applications2D Materials and Applications
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