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The controlled manipulation of the spin and charge of electrons in a semiconductor has the potential to create new routes to digital electronics beyond Moore's law, spintronics, and quantum detection and imaging for sensing applications. These technologies require a shift from traditional semiconducting and magnetic nanostructured materials. Here, a new material system is reported, which comprises the InSe semiconductor van der Waals crystal that embeds ferromagnetic Fe-islands. In contrast to many traditional semiconductors, the electronic properties of InSe are largely preserved after the incorporation of Fe. Also, this system exhibits ferromagnetic resonances and a large uniaxial magnetic anisotropy at room temperature, offering opportunities for the development of functional devices that integrate magnetic and semiconducting properties within the same material system

Moro, F., Bhuiyan, M., Kudrynskyi, Z., Puttock, R., Kazakova, O., Makarovsky, O., et al. (2018). Room Temperature Uniaxial Magnetic Anisotropy Induced By Fe-Islands in the InSe Semiconductor Van Der Waals Crystal. ADVANCED SCIENCE, 5(7) [10.1002/advs.201800257].

Room Temperature Uniaxial Magnetic Anisotropy Induced By Fe-Islands in the InSe Semiconductor Van Der Waals Crystal

Moro, Fabrizio;Bhuiyan, Mahabub A.;Kudrynskyi, Zakhar R.;Puttock, Robert;Kazakova, Olga;Makarovsky, Oleg;Fay, Michael W.;Parmenter, Christopher;Kovalyuk, Zakhar D.;Fielding, Alistar J.;Kern, Michal;van Slageren, Joris;Patanè, Amalia

2018

Abstract

The controlled manipulation of the spin and charge of electrons in a semiconductor has the potential to create new routes to digital electronics beyond Moore's law, spintronics, and quantum detection and imaging for sensing applications. These technologies require a shift from traditional semiconducting and magnetic nanostructured materials. Here, a new material system is reported, which comprises the InSe semiconductor van der Waals crystal that embeds ferromagnetic Fe-islands. In contrast to many traditional semiconductors, the electronic properties of InSe are largely preserved after the incorporation of Fe. Also, this system exhibits ferromagnetic resonances and a large uniaxial magnetic anisotropy at room temperature, offering opportunities for the development of functional devices that integrate magnetic and semiconducting properties within the same material system

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	Sottotipologia
	
				Articolo in rivista - Articolo scientifico
			
	Parole chiave
	
				electron spin resonance (ESR); InSe; iron; magnetic anisotropy; van der Waals semiconductors; Medicine (miscellaneous); Chemical Engineering (all); Materials Science (all); Biochemistry, Genetics and Molecular Biology (miscellaneous); Engineering (all); Physics and Astronomy (all)
			
	Lingua del contenuto
	
				English
			
	Data di pubblicazione
	
				2018
			
	Rivista
	
				ADVANCED SCIENCE
			
	Numero del volume
	
				5
			
	Fascicolo
	
				7
			
	Article number
	
				1800257
			
	DOI dell'articolo
	
				https://dx.doi.org/10.1002/advs.201800257
			
	URL alternativo
	
				http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2198-3844
			
	Fulltext
	
				open
			
	Citazione
	
				Moro, F., Bhuiyan, M., Kudrynskyi, Z., Puttock, R., Kazakova, O., Makarovsky, O., et al. (2018). Room Temperature Uniaxial Magnetic Anisotropy Induced By Fe-Islands in the InSe Semiconductor Van Der Waals Crystal. ADVANCED SCIENCE, 5(7) [10.1002/advs.201800257].
			
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				01 - Articolo su rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/210599

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