AI Article Synopsis
- Researchers studied the use of monolayer-thick 2D materials as protective layers for reactive metal surfaces, focusing on Europium (Eu) intercalated between hexagonal boron nitride (hBN) and a platinum (Pt) substrate.
- The study found that the intercalation created a ferromagnetic EuPt surface alloy with stable divalent Eu atoms, even when exposed to air.
- They also discovered that using a curved Pt substrate influenced the valence state of Eu and the effectiveness of the hBN protection, with a rougher surface leading to reduced stability of the hBN layer.
Article Abstract
One of the fundamental applications for monolayer-thick 2D materials is their use as protective layers of metal surfaces and intercalated reactive materials in ambient conditions. Here we investigate the structural, electronic, and magnetic properties, as well as the chemical stability in air of a very reactive metal, Europium, after intercalation between a hexagonal boron nitride (hBN) layer and a Pt substrate. We demonstrate that Eu intercalation leads to a hBN-covered ferromagnetic EuPt surface alloy with divalent Eu atoms at the interface. We expose the system to ambient conditions and find a partial conservation of the di-valent signal and hence the Eu-Pt interface. The use of a curved Pt substrate allows us to explore the changes in the Eu valence state and the ambient pressure protection at different substrate planes. The interfacial EuPt surface alloy formation remains the same, but the resistance of the protecting hBN layer to ambient conditions is reduced, likely due to a rougher surface and a more discontinuous hBN coating.
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