Melanin system composition analyzed by XPS depth profiling

•Comparison of the chemical composition of surface and bulk melanin derivatives.•The main chemical structure of melanin do not change as a function of depth.•Film processing can slightly change the chemical composition of melanin.•Similar behavior was found for standard non-functionalized and sulfon...

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Bibliographic Details
Published in:Surfaces and interfaces 2021-06, Vol.24, p.101053, Article 101053
Main Authors: Paulin, J.V., McGettrick, J.D., Graeff, C.F.O., Mostert, A.B.
Format: Article
Language:English
Subjects:
Depth-profile XPS, Polyindolequinone
Eumelanin
Melanin derivatives
Polydopamine
X-ray photoelectron spectroscopy
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Summary:•Comparison of the chemical composition of surface and bulk melanin derivatives.•The main chemical structure of melanin do not change as a function of depth.•Film processing can slightly change the chemical composition of melanin.•Similar behavior was found for standard non-functionalized and sulfonated melanin derivatives. The melanins are a class of natural pigments ubiquitous throughout the biosphere. These pigments are gaining significant attention as advanced materials due to their biocompatibility, optical and electrical properties. The most common form of melanin, eumelanin, has a well-known problem of insolubility in most common solvents. The insolubility has made standard chemical analysis challenging, leading to researchers opting to use X-Ray photoelectron spectroscopy (XPS). However, standard XPS used on melanins and related materials have been limited to being a surface technique, and hence reported values to date may not reflect the bulk. In this work, we have investigated with XPS depth-profiling method the chemical information of the surface and the bulk of powder and thin-films of eumelanin and several melanin derivatives. These latter derivatives are modified melanins designed to overcome the insolubility of the standard systems. Our result indicates that there are only few differences in the chemical composition of the melanin chemical structure between the surface and bulk, for either the powder of film samples. Our results show that a basic surface probe is sufficient to obtain an accurate elemental composition for basic melanin samples. As such, our analysis indicates that XPS characterization is an important characterization of polyindolequinone systems in general such as the melanins and polydopamines. [Display omitted]
ISSN:2468-0230
2468-0230
DOI:10.1016/j.surfin.2021.101053