First-principles study on a multiferroic material

Salhi, Nassima (Promotrice)

dc.contributor.advisor	Hamaidi, Cherine
dc.contributor.author	Salhi, Nassima (Promotrice)
dc.date.accessioned	2021-11-22T13:12:32Z
dc.date.available	2021-11-22T13:12:32Z
dc.date.issued	2021-09-22
dc.identifier.uri	http://di.univ-blida.dz:8080/jspui/handle/123456789/13104
dc.description	ill., Bibliogr. Cote:ma-540-248	fr_FR
dc.description.abstract	This dissertation introduces the application of First- Principles calculations on multiferroic material, especially, bismuth ferrite: BiFeO3 . It develops new strategic pathways for building a super catalyst, namely,doping and codoping, for an optimal application in PEC, photocatalytic water splitting for hydrogen production. A Castep code has been used with A GGA-PBE functional. A series of optimized calculations investigated a so-called: band structure engineering at the core-electronic level. Results based on , revealed the importance of DFT calculation for the scope and prediction of self-structure properties:structural, electronic, etc. The optimized catalyst viz: La/Ti Co-doped BiFeO3 , revealed the lowest bandgap on the interval of : [1.7-1.9] eV, compared to Ti doped BiFc03 : 2eV, BiFe0g : 2.4 eV. This Theoretical result is a mainstay for future experimental investigation. Keywords: DFT, First- principles, GGA,PBE,Bi FeO3,Multiferroic,PEC.	fr_FR
dc.language.iso	en	fr_FR
dc.publisher	Université Blida 1	fr_FR
dc.subject	DFT	fr_FR
dc.subject	First- principles	fr_FR
dc.subject	GGA	fr_FR
dc.subject	PBE	fr_FR
dc.subject	Bi FeO3	fr_FR
dc.subject	Multiferroic	fr_FR
dc.subject	PEC	fr_FR
dc.title	First-principles study on a multiferroic material	fr_FR
dc.title.alternative	Bismuth ferrite BiFeO3	fr_FR
dc.type	Thesis	fr_FR