Surface structure and morphology of $M[CoM′]O_{4}$ (M = Mg, Zn, Fe, Co and M′ = Ni, Al, Mn, Co) spinel nanocrystals––DFT+U and TEM screening investigations

Zasada, Filip; Gryboś, Joanna; Indyka, Paulina; Piskorz, Witold; Kaczmarczyk, Jan; Sojka, Zbigniew

doi:10.1021/jp503737p

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Surface structure and morphology of (M = Mg, Zn, Fe, Co and M′ = Ni, Al, Mn, Co) spinel nanocrystals––DFT+U and TEM screening investigations

2014

journal article

article

10.1021/jp503737p

Journal

The Journal of Physical Chemistry. C

35

Author

Zasada Filip

Gryboś Joanna

Indyka Paulina

Piskorz Witold

Kaczmarczyk Jan

Volume

118

Number

33

Pages

19085-19097

ISSN

1932-7447

eISSN

1932-7455

Remarks

Joanna Gryboś - Wydział Chemii UJ

Language

English

Journal language

English

Abstract in English

Plane wave periodic GGA-PBE+U density functional theory calculations were used to study the structure, surface energy, and equilibrium shape of faceted nanocrystals for a series of cubic (Fd3m) 2-3 spinels with the following formula: , , , , , , and . Their bulk geometries (lattice constants and oxygen u parameters) as well as electronic and magnetic properties were computed and compared with experimental data. All planes, (100), (110), and (111), exposed by the spinel nanocrystallites of equilibrium morphology were taken into account, and their atomic structure, reconstruction, and stabilization were elucidated and systematized in terms of the structural oxygen u parameter. The strongest relaxation of the A cations was observed for the (100) plane, whereas that for the B cations was on the (111) plane. By using the calculated surface energy values, the shapes of the spinel nanocrystallites were predicted by means of the Wulff construction and classified according to their shapes into singly and doubly truncated hexahedra (rhombicuboctahedra) and truncated octahedra. The results were compared with experimental TEM and STEM pictures, corroborated by image simulation.

Scopus© citations

91

cris.lastimport.wos	2024-04-09T23:46:29Z
dc.abstract.en	Plane wave periodic GGA-PBE+U density functional theory calculations were used to study the structure, surface energy, and equilibrium shape of faceted nanocrystals for a series of cubic (Fd3m) 2-3 $AB_{2}O_{4}$ spinels with the following formula: $Co[Co_{2}]O_{4}$, $Mg[Co_{2}]O_{4}$, $Zn[Co_{2}]O_{4}$, $Co[NiCo]O_{4}$, $Co[MnCo]O_{4}$, $Fe[FeCo]O_{4}$, and $Co[Al_{2}]O_{4}$. Their bulk geometries (lattice constants and oxygen u parameters) as well as electronic and magnetic properties were computed and compared with experimental data. All planes, (100), (110), and (111), exposed by the spinel nanocrystallites of equilibrium morphology were taken into account, and their atomic structure, reconstruction, and stabilization were elucidated and systematized in terms of the structural oxygen u parameter. The strongest relaxation of the A cations was observed for the (100) plane, whereas that for the B cations was on the (111) plane. By using the calculated surface energy values, the shapes of the spinel nanocrystallites were predicted by means of the Wulff construction and classified according to their shapes into singly and doubly truncated hexahedra (rhombicuboctahedra) and truncated octahedra. The results were compared with experimental TEM and STEM pictures, corroborated by image simulation.	pl
dc.affiliation	Wydział Chemii : Zakład Chemii Nieorganicznej	pl
dc.contributor.author	Zasada, Filip - 200610	pl
dc.contributor.author	Gryboś, Joanna - 115944	pl
dc.contributor.author	Indyka, Paulina - 135195	pl
dc.contributor.author	Piskorz, Witold - 131426	pl
dc.contributor.author	Kaczmarczyk, Jan - 126124	pl
dc.contributor.author	Sojka, Zbigniew - 131982	pl
dc.date.accessioned	2015-06-23T07:58:51Z
dc.date.available	2015-06-23T07:58:51Z
dc.date.issued	2014	pl
dc.description.additional	Joanna Gryboś - Wydział Chemii UJ	pl
dc.description.number	33	pl
dc.description.physical	19085-19097	pl
dc.description.volume	118	pl
dc.identifier.doi	10.1021/jp503737p	pl
dc.identifier.eissn	1932-7455	pl
dc.identifier.issn	1932-7447	pl
dc.identifier.uri	http://ruj.uj.edu.pl/xmlui/handle/item/10044
dc.language	eng	pl
dc.language.container	eng	pl
dc.rights.licence	Bez licencji otwartego dostępu
dc.source.integrator	false
dc.subtype	Article	pl
dc.title	Surface structure and morphology of $M[CoM′]O_{4}$ (M = Mg, Zn, Fe, Co and M′ = Ni, Al, Mn, Co) spinel nanocrystals––DFT+U and TEM screening investigations	pl
dc.title.journal	The Journal of Physical Chemistry. C	pl
dc.type	JournalArticle	pl
dspace.entity.type	Publication

cris.lastimport.wos

2024-04-09T23:46:29Z

dc.abstract.enpl

Plane wave periodic GGA-PBE+U density functional theory calculations were used to study the structure, surface energy, and equilibrium shape of faceted nanocrystals for a series of cubic (Fd3m) 2-3 $AB_{2}O_{4}$ spinels with the following formula: $Co[Co_{2}]O_{4}$, $Mg[Co_{2}]O_{4}$, $Zn[Co_{2}]O_{4}$, $Co[NiCo]O_{4}$, $Co[MnCo]O_{4}$, $Fe[FeCo]O_{4}$, and $Co[Al_{2}]O_{4}$. Their bulk geometries (lattice constants and oxygen u parameters) as well as electronic and magnetic properties were computed and compared with experimental data. All planes, (100), (110), and (111), exposed by the spinel nanocrystallites of equilibrium morphology were taken into account, and their atomic structure, reconstruction, and stabilization were elucidated and systematized in terms of the structural oxygen u parameter. The strongest relaxation of the A cations was observed for the (100) plane, whereas that for the B cations was on the (111) plane. By using the calculated surface energy values, the shapes of the spinel nanocrystallites were predicted by means of the Wulff construction and classified according to their shapes into singly and doubly truncated hexahedra (rhombicuboctahedra) and truncated octahedra. The results were compared with experimental TEM and STEM pictures, corroborated by image simulation.

dc.affiliationpl

Wydział Chemii : Zakład Chemii Nieorganicznej

dc.contributor.authorpl

Zasada, Filip - 200610

dc.contributor.authorpl

Gryboś, Joanna - 115944

dc.contributor.authorpl

Indyka, Paulina - 135195

dc.contributor.authorpl

Piskorz, Witold - 131426

dc.contributor.authorpl

Kaczmarczyk, Jan - 126124

dc.contributor.authorpl

Sojka, Zbigniew - 131982

dc.date.accessioned

2015-06-23T07:58:51Z

dc.date.available

2015-06-23T07:58:51Z

dc.date.issuedpl

2014

dc.description.additionalpl

Joanna Gryboś - Wydział Chemii UJ

dc.description.numberpl

33

dc.description.physicalpl

19085-19097

dc.description.volumepl

118

dc.identifier.doipl

10.1021/jp503737p

dc.identifier.eissnpl

1932-7455

dc.identifier.issnpl

1932-7447

dc.identifier.uri

http://ruj.uj.edu.pl/xmlui/handle/item/10044

dc.languagepl

eng

dc.language.containerpl

eng

dc.rights.licence

Bez licencji otwartego dostępu

dc.source.integrator

false

dc.subtypepl

Article

dc.titlepl

Surface structure and morphology of $M[CoM′]O_{4}$ (M = Mg, Zn, Fe, Co and M′ = Ni, Al, Mn, Co) spinel nanocrystals––DFT+U and TEM screening investigations

dc.title.journalpl

The Journal of Physical Chemistry. C

dc.typepl

JournalArticle

dspace.entity.type

Publication

Affiliations

Wydział Chemii

Zasada, Filip

Indyka, Paulina

Piskorz, Witold

Sojka, Zbigniew

Kaczmarczyk, Jan

Gryboś, Joanna

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