Exploring the benefits of surface analysis techniques to develop double multilayer transfer printing of J-Aggregates cyanine dyes by integrating L-b-L and μCp processes

Exploring the benefits of surface analysis techniques to develop double multilayer transfer printing of J-Aggregates cyanine dyes by integrating L-b-L and μCp processes

Layer-by-layer self-assembly (L-b-L assembly) makes possible to obtain polyelectrolyte multilayers (PEMs) and one of the polyelectrolytes could be replaced by a dye molecule to obtain multilayers which may exhibit optical properties of great interest. On the other hand, mu Cp has become a routine te...

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Published in:Talanta (Oxford) Vol. 250; p. 123731
Main Authors: Minot, Sylvain, Gablin, Corinne, Gassenq, Alban, Bard, Antoine, Symonds, Clémentine, Benoit, Jean-Michel, Bellessa, Joël, Leonard, Didier, Bessueille, François
Format: Journal Article
Language:English
Published: Elsevier 01-12-2022
Subjects:
Analytical chemistry
Chemical Sciences
Double printing
J-agg cyanine dyes
Microcontact printing
Surface Imaging
Multilayer transfer printing
Layer-by-layer
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Abstract Layer-by-layer self-assembly (L-b-L assembly) makes possible to obtain polyelectrolyte multilayers (PEMs) and one of the polyelectrolytes could be replaced by a dye molecule to obtain multilayers which may exhibit optical properties of great interest. On the other hand, mu Cp has become a routine technique for the preparation of micro -and nanostructured surfaces. In our development in progress of a surface engineering strategy to transfer J-Agg cyanine dyes onto surfaces by integrating L-b-L process and mu Cp, this contribution highlights how surface analysis imaging techniques can bring valuable information for the development of the process involving a double Multilayers Transfer Printing (MTP) with a Moire ' effect. Key parameters sustaining image interpretation are difference in deposit thickness (optical microscopy, atomic force microscopy, scanning electron microscopy), in roughness (atomic force microscopy and scanning electron microscopy), in charge effect (scanning electron microscopy) and the chemical contrast between unprinted and printed areas (time-of-flight secondary ion mass spectrometry).
AbstractList Layer-by-layer self-assembly (L-b-L assembly) makes possible to obtain polyelectrolyte multilayers (PEMs) and one of the polyelectrolytes could be replaced by a dye molecule to obtain multilayers which may exhibit optical properties of great interest. On the other hand, mu Cp has become a routine technique for the preparation of micro -and nanostructured surfaces. In our development in progress of a surface engineering strategy to transfer J-Agg cyanine dyes onto surfaces by integrating L-b-L process and mu Cp, this contribution highlights how surface analysis imaging techniques can bring valuable information for the development of the process involving a double Multilayers Transfer Printing (MTP) with a Moire ' effect. Key parameters sustaining image interpretation are difference in deposit thickness (optical microscopy, atomic force microscopy, scanning electron microscopy), in roughness (atomic force microscopy and scanning electron microscopy), in charge effect (scanning electron microscopy) and the chemical contrast between unprinted and printed areas (time-of-flight secondary ion mass spectrometry).
ArticleNumber 123731
Author Minot, Sylvain
Benoit, Jean-Michel
Gablin, Corinne
Gassenq, Alban
Bellessa, Joël
Bessueille, François
Bard, Antoine
Symonds, Clémentine
Leonard, Didier
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  fullname: Bessueille, François
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Keywords Double printing
J-agg cyanine dyes
Microcontact printing
Surface Imaging
Multilayer transfer printing
Layer-by-layer
Language English
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Snippet Layer-by-layer self-assembly (L-b-L assembly) makes possible to obtain polyelectrolyte multilayers (PEMs) and one of the polyelectrolytes could be replaced by...
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SubjectTerms Analytical chemistry
Chemical Sciences
Title Exploring the benefits of surface analysis techniques to develop double multilayer transfer printing of J-Aggregates cyanine dyes by integrating L-b-L and μCp processes
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