“…14–18 In the past, numerous works in the literature have been conducted on single-ion doping and multi-ion doping to achieve room-temperature ferromagnetism in CuO, as evidenced by the findings presented in Table S2 (ESI†). 19–32 Nonetheless, currently, the development of twin crystal copper oxide DMS within the realm of prepared copper oxide twin crystal structures has been scarcely examined. 33,34…”
The twin crystal structure and Eu atom doping are regarded as the main factors affecting the p-type to n-type transition, the magnetic properties, and the anomalous Hall effect of the twin Cu1−xEuxO structure.
“…14–18 In the past, numerous works in the literature have been conducted on single-ion doping and multi-ion doping to achieve room-temperature ferromagnetism in CuO, as evidenced by the findings presented in Table S2 (ESI†). 19–32 Nonetheless, currently, the development of twin crystal copper oxide DMS within the realm of prepared copper oxide twin crystal structures has been scarcely examined. 33,34…”
The twin crystal structure and Eu atom doping are regarded as the main factors affecting the p-type to n-type transition, the magnetic properties, and the anomalous Hall effect of the twin Cu1−xEuxO structure.
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