Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks

Irati Golvano-Escobal; Juan Carlos Gonzalez-Rosillo; Neus Domingo; Xavi Illa; José Francisco López-Barberá; Jordina Fornell; Pau Solsona; Lucia Aballe; Michael Foerster; Santiago Surinãch; Maria Dolors Baró; Teresa Puig; Salvador Pané; Josep Nogués; Eva Pellicer; Jordi Sort

doi:10.1038/srep30398

Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks

Irati Golvano-Escobal, Juan Carlos Gonzalez-Rosillo, Neus Domingo, Xavi Illa, José Francisco López-Barberá, Jordina Fornell, Pau Solsona, Lucia Aballe, Michael Foerster, Santiago Surinãch, Maria Dolors Baró, Teresa Puig, Salvador Pané, Josep Nogués, Eva Pellicer, Jordi Sort

Functional Atomic Force Microscopy Group

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Spatio-temporal patterns are ubiquitous in different areas of materials science and biological systems. However, typically the motifs in these types of systems present a random distribution with many possible different structures. Herein, we demonstrate that controlled spatio-temporal patterns, with reproducible spiral-like shapes, can be obtained by electrodeposition of Co-In alloys inside a confined circular geometry (i.e., in disks that are commensurate with the typical size of the spatio-temporal features). These patterns are mainly of compositional nature, i.e., with virtually no topographic features. Interestingly, the local changes in composition lead to a periodic modulation of the physical (electric, magnetic and mechanical) properties. Namely, the Co-rich areas show higher saturation magnetization and electrical conductivity and are mechanically harder than the In-rich ones. Thus, this work reveals that confined electrodeposition of this binary system constitutes an effective procedure to attain template-free magnetic, electric and mechanical surface patterning with specific and reproducible shapes.

Original language	English
Article number	30398
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep30398
State	Published - Jul 27 2016

Funding

This work has been partially funded by the 2014-SGR-1015, 2014-SGR-1216 and 2014-SGR-753 projects from the Generalitat de Catalunya, the MAT2014-57960-C3-1-R, MAT2014-51778-C2-1-R and FIS2013-48668-C2-1-P.

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Golvano-Escobal, I., Gonzalez-Rosillo, J. C., Domingo, N., Illa, X., López-Barberá, J. F., Fornell, J., Solsona, P., Aballe, L., Foerster, M., Surinãch, S., Baró, M. D., Puig, T., Pané, S., Nogués, J., Pellicer, E., & Sort, J. (2016). Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks. Scientific Reports, 6, Article 30398. https://doi.org/10.1038/srep30398

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title = "Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks",

abstract = "Spatio-temporal patterns are ubiquitous in different areas of materials science and biological systems. However, typically the motifs in these types of systems present a random distribution with many possible different structures. Herein, we demonstrate that controlled spatio-temporal patterns, with reproducible spiral-like shapes, can be obtained by electrodeposition of Co-In alloys inside a confined circular geometry (i.e., in disks that are commensurate with the typical size of the spatio-temporal features). These patterns are mainly of compositional nature, i.e., with virtually no topographic features. Interestingly, the local changes in composition lead to a periodic modulation of the physical (electric, magnetic and mechanical) properties. Namely, the Co-rich areas show higher saturation magnetization and electrical conductivity and are mechanically harder than the In-rich ones. Thus, this work reveals that confined electrodeposition of this binary system constitutes an effective procedure to attain template-free magnetic, electric and mechanical surface patterning with specific and reproducible shapes.",

author = "Irati Golvano-Escobal and Gonzalez-Rosillo, {Juan Carlos} and Neus Domingo and Xavi Illa and L{\'o}pez-Barber{\'a}, {Jos{\'e} Francisco} and Jordina Fornell and Pau Solsona and Lucia Aballe and Michael Foerster and Santiago Surin{\~a}ch and Bar{\'o}, {Maria Dolors} and Teresa Puig and Salvador Pan{\'e} and Josep Nogu{\'e}s and Eva Pellicer and Jordi Sort",

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Golvano-Escobal, I, Gonzalez-Rosillo, JC, Domingo, N, Illa, X, López-Barberá, JF, Fornell, J, Solsona, P, Aballe, L, Foerster, M, Surinãch, S, Baró, MD, Puig, T, Pané, S, Nogués, J, Pellicer, E & Sort, J 2016, 'Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks', Scientific Reports, vol. 6, 30398. https://doi.org/10.1038/srep30398

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AU - Golvano-Escobal, Irati

AU - Gonzalez-Rosillo, Juan Carlos

AU - Domingo, Neus

AU - Illa, Xavi

AU - López-Barberá, José Francisco

AU - Fornell, Jordina

AU - Solsona, Pau

AU - Aballe, Lucia

AU - Foerster, Michael

AU - Surinãch, Santiago

AU - Baró, Maria Dolors

AU - Puig, Teresa

AU - Pané, Salvador

AU - Nogués, Josep

AU - Pellicer, Eva

AU - Sort, Jordi

PY - 2016/7/27

Y1 - 2016/7/27

N2 - Spatio-temporal patterns are ubiquitous in different areas of materials science and biological systems. However, typically the motifs in these types of systems present a random distribution with many possible different structures. Herein, we demonstrate that controlled spatio-temporal patterns, with reproducible spiral-like shapes, can be obtained by electrodeposition of Co-In alloys inside a confined circular geometry (i.e., in disks that are commensurate with the typical size of the spatio-temporal features). These patterns are mainly of compositional nature, i.e., with virtually no topographic features. Interestingly, the local changes in composition lead to a periodic modulation of the physical (electric, magnetic and mechanical) properties. Namely, the Co-rich areas show higher saturation magnetization and electrical conductivity and are mechanically harder than the In-rich ones. Thus, this work reveals that confined electrodeposition of this binary system constitutes an effective procedure to attain template-free magnetic, electric and mechanical surface patterning with specific and reproducible shapes.

AB - Spatio-temporal patterns are ubiquitous in different areas of materials science and biological systems. However, typically the motifs in these types of systems present a random distribution with many possible different structures. Herein, we demonstrate that controlled spatio-temporal patterns, with reproducible spiral-like shapes, can be obtained by electrodeposition of Co-In alloys inside a confined circular geometry (i.e., in disks that are commensurate with the typical size of the spatio-temporal features). These patterns are mainly of compositional nature, i.e., with virtually no topographic features. Interestingly, the local changes in composition lead to a periodic modulation of the physical (electric, magnetic and mechanical) properties. Namely, the Co-rich areas show higher saturation magnetization and electrical conductivity and are mechanically harder than the In-rich ones. Thus, this work reveals that confined electrodeposition of this binary system constitutes an effective procedure to attain template-free magnetic, electric and mechanical surface patterning with specific and reproducible shapes.

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Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks

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