Epitaxial Graphene Intercalation: A Route to Graphene Modulation and Unique 2D Materials
Natalie Briggs, Zewdu M. Gebeyehu, Alexander Vera, Tian Zhao, Ke Wang,, Ana De La Fuente Duran, Brian Bersch, Timothy Bowen, Kenneth L., Knappenberger, Jr., Joshua A. Robinson

TL;DR
This paper reviews epitaxial graphene intercalation techniques, introduces a simple metal intercalation method, and demonstrates the creation of novel 2D materials like 2D-Ag and 2D-GaNx for advanced material engineering.
Contribution
It presents a new thermal evaporation-based approach for large-scale metal intercalation at the graphene/silicon carbide interface, enabling synthesis of novel 2D materials.
Findings
Thermal evaporation can replace complex synthesis techniques.
Effective large-scale intercalation of non-refractory metals achieved.
Formation of 2D-Ag and 2D-GaNx demonstrated.
Abstract
Intercalation of atomic species through epitaxial graphene layers began only a few years following its initial report in 2004. The impact of intercalation on the electronic properties of the graphene is well known; however, the intercalant itself can also exhibit intriguing properties not found in nature. This suggests that a shift in the focus of epitaxial graphene intercalation studies may lead to fruitful exploration of many new forms of traditionally 3D materials. In the following forward-looking review, we summarize the primary techniques used to achieve and characterize EG intercalation, and introduce a new, facile approach to readily achieve metal intercalation at the graphene/silicon carbide interface. We show that simple thermal evaporation-based methods can effectively replace complicated synthesis techniques to realize large-scale intercalation of non-refractory metals. We…
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Taxonomy
TopicsGraphene research and applications · 2D Materials and Applications · MXene and MAX Phase Materials
