Plasma modification of self-assembled structures of CoTMPP molecules

▶ Plasma treatment resulted in rearrangement of CoTMPP self-assemblies. ▶ The large CoTMPP aggregates are split into smaller ones. ▶ The upper layer of CoTMPP aggregates appears to be sublimated after plasma treatment. ▶ Plasma-induced morphological changes can contribute to the enhancement of catal...

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Published in:Applied surface science 2011-02, Vol.257 (8), p.3480-3488
Main Authors: Savastenko, N.A., Brüser, V.
Format: Article
Language:English
Subjects:
Aggregates
Atomic force microscopy
Atomic structure
Catalysis
Catalysts
Cobalt
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Nanostructure
Physics
Plasma treatment
Porphyrin
Self assembly
Surface chemistry
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cited_by cdi_FETCH-LOGICAL-c368t-88ce08083a1494ff4a7c15a87731f063f6b329f72c69919f39c4b199ea17f2663
cites cdi_FETCH-LOGICAL-c368t-88ce08083a1494ff4a7c15a87731f063f6b329f72c69919f39c4b199ea17f2663
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container_title Applied surface science
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creator Savastenko, N.A.
Brüser, V.
description ▶ Plasma treatment resulted in rearrangement of CoTMPP self-assemblies. ▶ The large CoTMPP aggregates are split into smaller ones. ▶ The upper layer of CoTMPP aggregates appears to be sublimated after plasma treatment. ▶ Plasma-induced morphological changes can contribute to the enhancement of catalytic activity of treated CoTMPP. Plasma-treated cobalt metalloporphyrins have recently been proposed as electrocatalysts for the oxygen and oxygen peroxide reduction reaction. Whereas the effects of plasma treatment on the elemental composition of the surface of catalysts have been investigated, the effects of plasma treatment on the morphology of catalysts have not yet been studied. In this study, plasma modified nanosized structures of cobalt tetramethoxyphenylporphyrin (CoTMPP) molecules arising from the deposition of a porphyrin solution on an a-C:H film are investigated using an atomic force microscope (AFM). Additionally, the effects of plasma treatment on the structure of porphyrin molecules are studied by using ultra violet visible (UV–vis) absorption analysis. The investigations reveal the morphological changes which accompany the transformation of CoTMPP into the final catalytic material. First, the large CoTMPP aggregates are split into smaller ones. Second, the CoTMPP layer appears to be sublimated after plasma treatment. Sublimated CoTMPP molecules can be decomposed by plasma and after redeposition can form catalytic active fragments.
doi_str_mv 10.1016/j.apsusc.2010.11.052
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Plasma-treated cobalt metalloporphyrins have recently been proposed as electrocatalysts for the oxygen and oxygen peroxide reduction reaction. Whereas the effects of plasma treatment on the elemental composition of the surface of catalysts have been investigated, the effects of plasma treatment on the morphology of catalysts have not yet been studied. In this study, plasma modified nanosized structures of cobalt tetramethoxyphenylporphyrin (CoTMPP) molecules arising from the deposition of a porphyrin solution on an a-C:H film are investigated using an atomic force microscope (AFM). Additionally, the effects of plasma treatment on the structure of porphyrin molecules are studied by using ultra violet visible (UV–vis) absorption analysis. The investigations reveal the morphological changes which accompany the transformation of CoTMPP into the final catalytic material. First, the large CoTMPP aggregates are split into smaller ones. 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subjects Aggregates
Atomic force microscopy
Atomic structure
Catalysis
Catalysts
Cobalt
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Nanostructure
Physics
Plasma treatment
Porphyrin
Self assembly
Surface chemistry
title Plasma modification of self-assembled structures of CoTMPP molecules
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