Raman and Far Infrared Synchrotron Nanospectroscopy of Layered Crystalline Talc: Vibrational Properties, Interlayer Coupling and Symmetry Crossover
Raphael Longuinhos, Alisson R. Cadore, Hans A. Bechtel, Christiano J., S. de Matos, Raul O. Freitas, Jenaina Ribeiro-Soares, and Ingrid D. Barcelos

TL;DR
This study combines advanced spectroscopic techniques and calculations to explore the vibrational properties, interlayer interactions, and symmetry changes in layered talc crystals from monolayer to bulk, revealing insights for nanoscale applications.
Contribution
It provides new insights into talc's vibrational modes, interlayer coupling, and symmetry crossover, enhancing understanding of its nanoscale structural properties.
Findings
Symmetry crossover observed from mono to bilayer talc.
Weak dependence of intralayer modes on layer number.
Low-frequency modes effectively identify layer count and reveal anisotropy.
Abstract
Talc is an insulating layered material that is stable at ambient conditions and has high-quality basal cleavage, which is a major advantage for its use in van der Waals heterostructures. Here, we use near-field synchrotron infrared nanospectroscopy, Raman spectroscopy, and first-principles calculations to investigate the structural and vibrational properties of talc crystals, ranging from monolayer to bulk, in the 300-750 cm-1 and <60 cm-1 spectral windows. We observe a symmetry crossover from mono to bilayer talc samples, attributed to the stacking of adjacent layers. The in-plane lattice parameters and frequencies of intralayer modes of talc display weak dependence with the number of layers, consistent with a weak interlayer interaction. On the other hand, the low-frequency (<60 cm-1) rigid-layer (interlayer) modes of talc are suitable to identify the number of layers in ultrathin…
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