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Exotic Electronic Properties of 2D Nanosheets Isolated from Liquid Phase Exfoliated Phyllosilicate Minerals

Cencen Wei, Abhijit Roy, Manoj Tripathi, Adel K. A. Aljarid, Jonathan P. Salvage, S. Mark Roe, Raúl Arenal, Conor S. Boland

2023Advanced Materials18 citationsDOIOpen Access PDF

Abstract

Abstract Spectrally inactive, electrically insulating, and chemically inert are adjectives broadly used to describe phyllosilicate minerals like mica and chlorite. Here, the above is disproved by demonstrating aqueous suspensions of liquid exfoliated nanosheets from five bulk mica types and chlorite schist. Nanosheet quality is confirmed via transmission electron and X‐ray photoelectron spectroscopies, as well as electron diffraction. Through Raman spectroscopy, a previously unreported size‐ and layer‐dependent spectral fingerprint is observed. When analyzing the high‐yield suspensions (≈1 mg mL −1 ) through UV–vis spectroscopy, all phyllosilicates present bandgap ( E g ) narrowing from ≈7 eV in the bulk to ≈4 eV for monolayers. Unusually, the bandgap is inversely proportional to the areal size ( A ) of the nanosheets, measured via atomic force microscopy. Due to an unrecorded quantum confinement effect, nanosheet electronic properties scale toward semiconducting behavior (bandgap ≈3 eV) as nanosheet area increases. Furthermore, modeling X‐ray diffraction spectra shows that the root cause of the initial bandgap narrowing is lattice relaxation. Finally, with their broad range of isomorphically substituted ions, phyllosilicate nanosheets show remarkable catalytic properties for hydrogen production.

Topics & Concepts

NanosheetMaterials scienceBand gapX-ray photoelectron spectroscopyRaman spectroscopyMicaTransmission electron microscopyChemical engineeringAnalytical Chemistry (journal)NanotechnologyComposite materialOptoelectronicsOpticsChemistryChromatographyPhysicsEngineeringIron oxide chemistry and applicationsGraphene research and applicationsClay minerals and soil interactions
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