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GridSpace2 virtual laboratory case study : implementation of algorithms for quantitative analysis of grain morphology in self-assembled hexagonal lattices according to the Hillebrand method
Author
Ciepiela Eryk
Zaraska Leszek
Sulka Grzegorz
Editor
Bubak Marian
Szczepaniec Tomasz
Wiatr Kazimierz
Book title / Journal title
Building a national distributed e-infrastructure - PL-Grid : scientific and technical achievements
Place of publication: Publisher
Berlin-Heidelberg : Springer-Verlag
Pages
240-251
ISBN
978-3-642-28266-9
eISBN
978-3-642-28267-6
Series
Lecture Notes in Computer Science
Serie's ISSN
0302-9743
Serie's eISSN
1611-3349
Number of serie
7136
Keywords in English
virtual laboratories
cientific computing
computational science
nanochemistry
self-assembled hexagonal lattices
Language
English
Book language / Journal language
English
Abstract in English
This work presents the implementation of a method, originally proposed by Hillebrand et al., of quantitative analysis of the grain morphology in self-assembled hexagonal lattices. This method can be effectively used for investigation o f structural features as well as regu- lar hexagonal arrangement of nanoporous alumina layers formed on the metal surface during the self-organized anodization process. The method has been implemented as a virtual experiment in the GridSpace2 Virtual Laboratory which is a scientific computing platform developed in the scope of the PL-Grid project. The experiment is a GridSpace2 pilot and therefore made available to the wider community of PL-Grid users. It is both editable and executable through a web portal offered by the GridSpace2 Experiment Workbench, dedicated to PL-Grid users. Moreover, since all GridSpace2 experiments are embeddable on arbitrary web sites owing to the Collage feature, the final version of the experiment has been published as an executable publication with execution rights granted to all PL-Grid users.
Affiliation
Wydział Chemii : Zakład Chemii Fizycznej i Elektrochemii
Scopus© citations
17
| dc.abstract.en | This work presents the implementation of a method, originally proposed by Hillebrand et al., of quantitative analysis of the grain morphology in self-assembled hexagonal lattices. This method can be effectively used for investigation o f structural features as well as regu- lar hexagonal arrangement of nanoporous alumina layers formed on the metal surface during the self-organized anodization process. The method has been implemented as a virtual experiment in the GridSpace2 Virtual Laboratory which is a scientific computing platform developed in the scope of the PL-Grid project. The experiment is a GridSpace2 pilot and therefore made available to the wider community of PL-Grid users. It is both editable and executable through a web portal offered by the GridSpace2 Experiment Workbench, dedicated to PL-Grid users. Moreover, since all GridSpace2 experiments are embeddable on arbitrary web sites owing to the Collage feature, the final version of the experiment has been published as an executable publication with execution rights granted to all PL-Grid users. | pl |
| dc.affiliation | Wydział Chemii : Zakład Chemii Fizycznej i Elektrochemii | pl |
| dc.contributor.author | Ciepiela, Eryk | pl |
| dc.contributor.author | Zaraska, Leszek - 214236 | pl |
| dc.contributor.author | Sulka, Grzegorz - 132161 | pl |
| dc.contributor.editor | Bubak, Marian | pl |
| dc.contributor.editor | Szczepaniec, Tomasz | pl |
| dc.contributor.editor | Wiatr, Kazimierz | pl |
| dc.date.accessioned | 2015-09-21T12:04:05Z | |
| dc.date.available | 2015-09-21T12:04:05Z | |
| dc.date.issued | 2012 | pl |
| dc.description.physical | 240-251 | pl |
| dc.description.publication | 0,78 | pl |
| dc.description.series | Lecture Notes in Computer Science | |
| dc.description.seriesnumber | 7136 | |
| dc.identifier.doi | 10.1007/978-3-642-28267-6_19 | pl |
| dc.identifier.eisbn | 978-3-642-28267-6 | pl |
| dc.identifier.isbn | 978-3-642-28266-9 | pl |
| dc.identifier.serieseissn | 1611-3349 | |
| dc.identifier.seriesissn | 0302-9743 | |
| dc.identifier.uri | http://ruj.uj.edu.pl/xmlui/handle/item/15724 | |
| dc.language | eng | pl |
| dc.language.container | eng | pl |
| dc.pubinfo | Berlin-Heidelberg : Springer-Verlag | pl |
| dc.rights.licence | Bez licencji otwartego dostępu | |
| dc.subject.en | virtual laboratories | pl |
| dc.subject.en | cientific computing | pl |
| dc.subject.en | computational science | pl |
| dc.subject.en | nanochemistry | pl |
| dc.subject.en | self-assembled hexagonal lattices | pl |
| dc.subtype | Article | pl |
| dc.title | GridSpace2 virtual laboratory case study : implementation of algorithms for quantitative analysis of grain morphology in self-assembled hexagonal lattices according to the Hillebrand method | pl |
| dc.title.container | Building a national distributed e-infrastructure - PL-Grid : scientific and technical achievements | pl |
| dc.type | BookSection | pl |
| dspace.entity.type | Publication |
dc.abstract.enpl
This work presents the implementation of a method, originally proposed by Hillebrand et al., of quantitative analysis of the
grain morphology in self-assembled hexagonal lattices. This method can
be effectively used for investigation o
f structural features as well as regu-
lar hexagonal arrangement of nanoporous alumina layers formed on the
metal surface during the self-organized anodization process. The method
has been implemented as a
virtual experiment
in the GridSpace2 Virtual
Laboratory which is a scientific computing platform developed in
the scope of the PL-Grid project. The experiment is a GridSpace2
pilot and therefore made available to the wider community of PL-Grid
users. It is both editable and executable through a web portal offered
by the GridSpace2 Experiment Workbench, dedicated to PL-Grid
users. Moreover, since all GridSpace2 experiments are embeddable on
arbitrary web sites owing to the
Collage
feature, the final version of
the experiment has been published as an
executable publication
with
execution rights granted to all PL-Grid users. dc.affiliationpl
Wydział Chemii : Zakład Chemii Fizycznej i Elektrochemii dc.contributor.authorpl
Ciepiela, Eryk dc.contributor.authorpl
Zaraska, Leszek - 214236 dc.contributor.authorpl
Sulka, Grzegorz - 132161 dc.contributor.editorpl
Bubak, Marian dc.contributor.editorpl
Szczepaniec, Tomasz dc.contributor.editorpl
Wiatr, Kazimierz dc.date.accessioned
2015-09-21T12:04:05Z dc.date.available
2015-09-21T12:04:05Z dc.date.issuedpl
2012 dc.description.physicalpl
240-251 dc.description.publicationpl
0,78 dc.description.series
Lecture Notes in Computer Science dc.description.seriesnumber
7136 dc.identifier.doipl
10.1007/978-3-642-28267-6_19 dc.identifier.eisbnpl
978-3-642-28267-6 dc.identifier.isbnpl
978-3-642-28266-9 dc.identifier.serieseissn
1611-3349 dc.identifier.seriesissn
0302-9743 dc.identifier.uri
http://ruj.uj.edu.pl/xmlui/handle/item/15724 dc.languagepl
eng dc.language.containerpl
eng dc.pubinfopl
Berlin-Heidelberg : Springer-Verlag dc.rights.licence
Bez licencji otwartego dostępu dc.subject.enpl
virtual laboratories dc.subject.enpl
cientific computing dc.subject.enpl
computational science dc.subject.enpl
nanochemistry dc.subject.enpl
self-assembled hexagonal lattices dc.subtypepl
Article dc.titlepl
GridSpace2 virtual laboratory case study : implementation of algorithms for quantitative analysis of grain morphology in self-assembled hexagonal lattices according to the Hillebrand method dc.title.containerpl
Building a national distributed e-infrastructure - PL-Grid : scientific and technical achievements dc.typepl
BookSection dspace.entity.type
Publication Affiliations
Wydział Chemii
Zaraska, Leszek
Sulka, Grzegorz
No affiliation
Ciepiela, Eryk
Bubak, Marian
Szczepaniec, Tomasz
Wiatr, Kazimierz
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