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2D magnets have generated much attention due to their potential for spintronic devices. Heterostructures of 2D magnets are interesting platforms for exploring physical phenomena and applications. However, the controlled growth of 2D room‐temperature ferromagnetic heterostructures is challenging. Here, one‐pot chemical vapor deposition growth of stable 2D Cr2O3–CrN mosaic heterostructures (MHs) is...
Ferromagnetism
The two‐dimensional Cr2O3‐CrN mosaic heterostructures consisting of a Cr2O3 flake with embedded CrN subdomains are synthesized by a designed chemical vapor deposition method. These mosaic heterostructures exhibit room‐temperature ferromagnetism which correlates with the Cr2O3‐CrN interfaces as shown in the cover image. More details can be found in article number 2304946 by Jingwei Wang,...
Bilayer semiconductors have attracted much attention due to their stacking‐order‐dependent properties. However, as both 3R‐ and 2H‐stacking are energetically stable at high temperatures, most of the high‐temperature grown bilayer materials have random 3R‐ or 2H‐stacking orders, leading to non‐uniformity in optical and electrical properties. Here, a chemical vapor deposition method is developed to...
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