Formation of ZnSe and ZnS nanostructures from hybrid organic-inorganic precursors of the type $ZnSe(m-xylylenediamine)_{1/2}$ and $ZnS(1,3-diaminopropane)_{1/2}$

Łasocha, Wiesław; Luberda-Durnaś, Katarzyna

doi:10.1002/crat.201400441

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Formation of ZnSe and ZnS nanostructures from hybrid organic-inorganic precursors of the type and

2015

journal article

article

10.1002/crat.201400441

Journal

Crystal Research and Technology

Author

Łasocha Wiesław

Luberda-Durnaś Katarzyna

Volume

50

Number

9-10

Title of volume

Special Issue: E-MRS Fall Meeting (E-MRS 2014) Symposium N

Pages

716-723

ISSN

0232-1300

eISSN

1521-4079

Keywords in English

powder diffraction

hybrid organic-inorganic materials

II-VI semiconductors

Remarks

Łasocha Wiesław afiliuje z Wydziału Chemii UJ.

Language

English

Journal language

English

Abstract in English

Two hybrid organic-inorganic materials, ZnS(1,3-diaminopropane)1/2 {1} and ZnSe(m-xylylenediamine)1/2 {2} were used as precursors of nanometric ZnS and ZnSe nanostructures. To obtain a single-phase semiconductor, refluxing in different solvents (acetonitrile, 1-octanol, 1,6-hexanediol) with various boiling points was applied. In this method, the synergic effect between temperature and the properties of the reactant medium was used to remove amines from hybrid material containing semiconducting slabs and to form pure nanometer-sized semiconducting grains whose properties were different than those of the corresponding bulk phases. The main goal of our research was to answer the question whether reaction conditions have an impact on the features of obtained semiconducting grains of ZnS and ZnSe. Accordingly, all obtained samples were analyzed using the powder diffraction method, UV-vis spectroscopy and scanning electron microscopy.

cris.lastimport.wos	2024-04-10T02:51:49Z
dc.abstract.en	Two hybrid organic-inorganic materials, ZnS(1,3-diaminopropane)1/2 {1} and ZnSe(m-xylylenediamine)1/2 {2} were used as precursors of nanometric ZnS and ZnSe nanostructures. To obtain a single-phase semiconductor, refluxing in different solvents (acetonitrile, 1-octanol, 1,6-hexanediol) with various boiling points was applied. In this method, the synergic effect between temperature and the properties of the reactant medium was used to remove amines from hybrid material containing semiconducting slabs and to form pure nanometer-sized semiconducting grains whose properties were different than those of the corresponding bulk phases. The main goal of our research was to answer the question whether reaction conditions have an impact on the features of obtained semiconducting grains of ZnS and ZnSe. Accordingly, all obtained samples were analyzed using the powder diffraction method, UV-vis spectroscopy and scanning electron microscopy.	pl
dc.affiliation	Wydział Chemii : Zakład Krystalochemii i Krystalofizyki	pl
dc.contributor.author	Łasocha, Wiesław - 130062	pl
dc.contributor.author	Luberda-Durnaś, Katarzyna	pl
dc.date.accessioned	2015-12-29T07:59:31Z
dc.date.available	2015-12-29T07:59:31Z
dc.date.issued	2015	pl
dc.description.additional	Łasocha Wiesław afiliuje z Wydziału Chemii UJ.	pl
dc.description.number	9-10	pl
dc.description.physical	716-723	pl
dc.description.volume	50	pl
dc.identifier.doi	10.1002/crat.201400441	pl
dc.identifier.eissn	1521-4079	pl
dc.identifier.issn	0232-1300	pl
dc.identifier.uri	http://ruj.uj.edu.pl/xmlui/handle/item/18703
dc.language	eng	pl
dc.language.container	eng	pl
dc.rights.licence	Bez licencji otwartego dostępu
dc.subject.en	powder diffraction	pl
dc.subject.en	hybrid organic-inorganic materials	pl
dc.subject.en	II-VI semiconductors	pl
dc.subtype	Article	pl
dc.title	Formation of ZnSe and ZnS nanostructures from hybrid organic-inorganic precursors of the type $ZnSe(m-xylylenediamine)_{1/2}$ and $ZnS(1,3-diaminopropane)_{1/2}$	pl
dc.title.journal	Crystal Research and Technology	pl
dc.title.volume	Special Issue: E-MRS Fall Meeting (E-MRS 2014) Symposium N	pl
dc.type	JournalArticle	pl
dspace.entity.type	Publication

cris.lastimport.wos

2024-04-10T02:51:49Z

dc.abstract.enpl

Two hybrid organic-inorganic materials, ZnS(1,3-diaminopropane)1/2 {1} and ZnSe(m-xylylenediamine)1/2 {2} were used as precursors of nanometric ZnS and ZnSe nanostructures. To obtain a single-phase semiconductor, refluxing in different solvents (acetonitrile, 1-octanol, 1,6-hexanediol) with various boiling points was applied. In this method, the synergic effect between temperature and the properties of the reactant medium was used to remove amines from hybrid material containing semiconducting slabs and to form pure nanometer-sized semiconducting grains whose properties were different than those of the corresponding bulk phases. The main goal of our research was to answer the question whether reaction conditions have an impact on the features of obtained semiconducting grains of ZnS and ZnSe. Accordingly, all obtained samples were analyzed using the powder diffraction method, UV-vis spectroscopy and scanning electron microscopy.

dc.affiliationpl

Wydział Chemii : Zakład Krystalochemii i Krystalofizyki

dc.contributor.authorpl

Łasocha, Wiesław - 130062

dc.contributor.authorpl

Luberda-Durnaś, Katarzyna

dc.date.accessioned

2015-12-29T07:59:31Z

dc.date.available

2015-12-29T07:59:31Z

dc.date.issuedpl

2015

dc.description.additionalpl

Łasocha Wiesław afiliuje z Wydziału Chemii UJ.

dc.description.numberpl

9-10

dc.description.physicalpl

716-723

dc.description.volumepl

50

dc.identifier.doipl

10.1002/crat.201400441

dc.identifier.eissnpl

1521-4079

dc.identifier.issnpl

0232-1300

dc.identifier.uri

http://ruj.uj.edu.pl/xmlui/handle/item/18703

dc.languagepl

eng

dc.language.containerpl

eng

dc.rights.licence

Bez licencji otwartego dostępu

dc.subject.enpl

powder diffraction

dc.subject.enpl

hybrid organic-inorganic materials

dc.subject.enpl

II-VI semiconductors

dc.subtypepl

Article

dc.titlepl

Formation of ZnSe and ZnS nanostructures from hybrid organic-inorganic precursors of the type $ZnSe(m-xylylenediamine)_{1/2}$ and $ZnS(1,3-diaminopropane)_{1/2}$

dc.title.journalpl

Crystal Research and Technology

dc.title.volumepl

Special Issue: E-MRS Fall Meeting (E-MRS 2014) Symposium N

dc.typepl

JournalArticle

dspace.entity.type

Publication

Affiliations

Wydział Chemii

Łasocha, Wiesław

No affiliation

Luberda-Durnaś, Katarzyna

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