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In article number 2001324, the authors report the achievement of strong ferromagnetism in atomically thin cobaltite by local structural modification, where a surprisingly large magnetic moment and Curie temperature are observed. Thus, a strategy for creating functional quantum heterostructures by exploiting atomic interface engineering is demonstrated.
Low‐dimensional quantum materials that remain strongly ferromagnetic down to monolayer thickness are highly desired for spintronic applications. Although oxide materials are important candidates for the next generation of spintronics, ferromagnetism decays severely when the thickness is scaled to the nanometer regime, leading to deterioration of device performance. Here, a methodology is reported...
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