Exfoliation of natural van der Waals heterostructures to a single unit cell thickness
Citations Over TimeTop 10% of 2017 papers
Abstract
Weak interlayer interactions in van der Waals crystals facilitate their mechanical exfoliation to monolayer and few-layer two-dimensional materials, which often exhibit striking physical phenomena absent in their bulk form. Here we utilize mechanical exfoliation to produce a two-dimensional form of a mineral franckeite and show that the phase segregation of chemical species into discrete layers at the sub-nanometre scale facilitates franckeite's layered structure and basal cleavage down to a single unit cell thickness. This behaviour is likely to be common in a wider family of complex minerals and could be exploited for a single-step synthesis of van der Waals heterostructures, as an alternative to artificial stacking of individual two-dimensional crystals. We demonstrate p-type electrical conductivity and remarkable electrochemical properties of the exfoliated crystals, showing promise for a range of applications, and use the density functional theory calculations of franckeite's electronic band structure to rationalize the experimental results.
Related Papers
- → Modulating the Interlayer Stacking of Covalent Organic Frameworks for Efficient Acetylene Separation(2023)76 cited
- → Interplay of π-stacking and inter-stacking interactions in two-component crystals of neutral closed-shell aromatic compounds: periodic DFT study(2020)40 cited
- → Stacking variants for doubly-connected systems arranged according to the percentages of hexagonal stacking(1981)13 cited
- → Survey of possible layer stacking structures*(1967)25 cited
- → Converting SMILES to Stacking Interaction Energies(2019)1 cited