Data for publication: Iron-sponges interrelations: from biocorrosion to nanostructured biocomposites

The collection includes files related to the review publication: Anita Kubiak, Martyna Kotula, Bartosz Leśniewski, Martyna Pajewska-Szmyt. Iron-sponges Interrelations: from Biocorrosion to Nanostructured Biocomposites. Letters in Applied NanoBioScience 12(3):64The collection includes figures used in the publication: Figure_1 Diverse marine sponges growing on iron-based constructions. (A),(C): Front Porch (wreck), N12°09.904' W 68°17.194', (B): Hilma Hooker (wreck), N 12°06.271' W 68°17.291', (D): Salt Pier N 12°05.006'W 68°16.912'. The underwater photographs were made by V.N. Ivanenko (Lomonosov Moscow StateUniversity) during The Bonaire Marine Biodiversity Expedition (2019) organized by Naturalis BiodiversityCenter in Leiden, ANEMOON Foundation, and STINAPA Bonaire National Parks Foundation. Figure_2 Proposed mechanism of iron-spongin interaction.Figure_3 Process of marine bio-fouling.Figure_4 presented in the article has been reprinted from: The probable interaction mechanism between Fe2O3 and spongin from H. communis after hydrothermal synthesis at 90°C. Szatkowski, T.; Wysokowski, M.; Lota, G.; Pęziak, D.; Bazhenov, V. v.; Nowaczyk, G.; Walter, J.; Molodtsov, S.L.; Stöcker, H.; Himcinschi, C.; et al. Novel Nanostructured Hematite-Spongin Composite Developed Using an Extreme Biomimetic Approach. RSC Advances 2015, 5, 79031–79040, https://doi.org/10.1039/c5ra09379a. (licensed under CC BY-NC 3.0).The collection also included a file (References) with the list of literature used in the review paper:References - Literature cited in the publication.