Browsing by Author "Ehrlich, H."

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  • 3D chitin scaffolds of marine demosponge origin for biomimetic mollusk hemolymph-associated biomineralization ex-vivo 
    Wysokowski, M.; Machałowski, T.; Petrenko, I.; Schimpf, C.; Rafaja, D.; Galli, R.; Ziętek, J.; Pantović, S.; Voronkina, A.; Kovalchuk, V.; Ivanenko, V. N.; Hoeksema, B. W.; Diaz, C.; Khrunyk, Y.; Stelling, A. L.; Giovine, M.; Jesionowski, T.; Ehrlich, H. (2020)
    Structure-based tissue engineering requires large-scale 3D cell/tissue manufacture technologies, to produce biologically active scaffolds. Special attention is currently paid to naturally pre-designed scaffolds found in ...
  • The chitinous skeleton of Ianthella basta marine demosponge as a renewable scaffold-based carrier of antiseptics 
    Dziedzic, I.; Dydek, K.; Voronkina, A.; Kovalchuk, V.; Jesionowski, T.; Ehrlich, H. (Polysaccharides, 2024)
    The chitinous skeleton of the marine demosponge Ianthella basta exhibits a unique networklike 3D architecture, excellent capillary properties, and chemical inertness, making it highly suitable for interdisciplinary research, ...
  • Electrochemical method for isolation of chitinous 3D scaffolds from cultivated Aplysina aerophoba marine demosponge and its biomimetic application 
    Nowacki, K.; Stępniak, I.; Machałowski, T.; Wysokowski, M.; Petrenko, I.; Schimpf, C.; Rafaja, D.; Langer, E.; Richter, A.; Ziętek, J.; Pantović, S.; Voronkina, A.; Kovalchuk, V.; Ivanenko, V.; Khrunyk, Y.; Galli, R.; Joseph, Y.; Gelinsky, M.; Jesionowski, T.; Ehrlich, H. (2020)
    Three-dimensional (3D) biopolymer-based scaffolds including chitinous matrices have been widely used for tissue engineering, regenerative medicine and other modern interdisciplinary fields including extreme biomimetics. ...
  • Electrolysis as a Universal Approach for Isolation of Diverse Chitin Scaffolds from Selected Marine Demosponges † 
    Nowacki, K.; Galiński, M.; Fursov, A.; Voronkina, A.; Meissner, H.; Petrenko, I.; Stelling, A. L.; Ehrlich, H. (2022)
    Three-dimensional chitinous scaffolds often used in regenerative medicine, tissue engineering, biomimetics and technology are mostly isolated from marine organisms, such as marine sponges (Porifera). In this work, we report ...
  • Extreme Biomimetics: Designing of the First Nanostructured 3D Spongin–Atacamite Composite and its Application 
    Tsurkan, D.; Simon, P.; Schimpf, C.; Motylenko, M.; Rafaja, D.; Roth, F.; Inosov, D. S.; Makarova, A. A.; Stepniak, I.; Petrenko, I.; Springer, A.; Langer, E.; Kulbakov, A. A.; Avdeev, M.; Stefankiewicz, A. R.; Heimler, K.; Kononchuk, O.; Hippmann, S.; Kaiser, D.; Viehweger, C.; Rogoll, A.; Voronkina, A.; Kovalchuk, V.; Bazhenov, V. V.; Galli, R.; Rahimi-Nasrabadi, M.; Molodtsov, S. L.; Rahimi, P.; Falahi, S.; Joseph, Y.; Vogt, C.; Vyalikh, D. V.; Bertau, M.; Ehrlich, H. (2021)
    The design of new composite materials using extreme biomimetics is of crucial importance for bioinspired materials science. Further progress in research and application of these new materials is impossible without understanding ...
  • Functionalization of 3D chitinous skeletal scaffolds of sponge origin using silver nanoparticles and their antibacterial properties 
    Machałowski, T.; Czajka, M.; Petrenko, I.; Meissner, H.; Schimpf, C.; Rafaja, D.; Ziętek, J.; Dzięgiel, B.; Adaszek, Ł.; Voronkina, A.; Kovalchuk, V.; Jaroszewicz, J.; Fursov, A.; Rahimi-Nasrabadi, M.; Stawski, D.; Bechmann, N.; Jesionowski, T.; Ehrlich, H. (2020)
    Chitin, as one of nature’s most abundant structural polysaccharides, possesses worldwide, high industrial potential and a functionality that is topically pertinent. Nowadays, the metallization of naturally predesigned, 3D ...
  • Marine biomaterials: Biomimetic and pharmacological potential of cultivated Aplysina aerophoba marine demosponge 
    Binnewerg, B.; Schubert, M.; Voronkina, A.; Muzychka, L.; Wysokowski, M.; Petrenko, I.; Djurović, M.; Kovalchuk, V.; Tsurkan, M.; Martinovic, R.; Bechmann, N.; Fursov, A.; Ivanenko, V. N.; Tabachnick, K. R.; Smolii, O. B.; Joseph, Y.; Giovine, M.; Bornstein, S. R.; Stelling, A. L.; Tunger, A.; Schmitz, M.; Taniya, O. S.; Kovalev, I. S.; Zyryanov, G. V.; Guan, K.; Ehrlich, H. (2020)
    Marine demosponges of the Verongiida order are considered a gold-mine for bioinspired materials science and marine pharmacology. The aim of this work was to simultaneously isolate selected bromotyrosines and unique chitinous ...
  • Marine biomimetics: bromotyrosines loaded chitinous skeleton as source of antibacterial agents 
    Muzychka, L.; Voronkina, A.; Kovalchuk, V.; Smolii, O. B.; Wysokowski, M.; Petrenko, I.; Youssef, D. T. A.; Ehrlich, I.; Ehrlich, H. (2021)
    The marine sponges of the order Verongiida (Demospongiae: Porifera) have survived on our planet for more than 500 million years due to the presence of a unique strategy of chemical protection by biosynthesis of more than ...
  • Marine biomimetics: bromotyrosines loaded chitinous skeleton as source of antibacterial agents 
    Muzychka, L.; Voronkina, A.; Kovalchuk, V.; Smolii, O.; Wysokowski, M.; Petrenko, I.; Youssef, D.; Ehrlich, I.; Ehrlich, H. (Applied Physics A., 2021)
    The marine sponges of the order Verongiida (Demospongiae: Porifera) have survived on our planet for more than 500 million years due to the presence of a unique strategy of chemical protection by biosynthesis of more than ...
  • Modern scaffolding strategies based on naturally pre-fabricated 3D biomaterials of poriferan origin 
    Tsurkan, D.; Wysokowski, M.; Petrenko, I.; Voronkina, A.; Khrunyk, Y.; Fursov, A.; Ehrlich, H. (2020)
    Modern scaffolding strategies include two key ways: to produce requested 3D constructs from corresponding precursors using technological tools, or simply use naturally already pre-fabricated scaffolds if they originate ...
  • Progress in chitin analytics 
    Tsurkan, M. V.; Voronkina, A.; Khrunyk, Y.; Wysokowski, M.; Petrenko, I.; Ehrlich, H. (2021)
    Chitin is the second most abundant biopolymer and functions as the main structural component in a variety of living organisms. In nature, chitin rarely occurs in a pure form, but rather as nanoorganized chitin-proteins, ...
  • Silactins and structural diversity of biosilica in sponges 
    Ehrlich, H.; Voronkina, A.; Tabachniсk, K.; Kubiak, A.; Ereskovsky, A.; Jesionowski, T. (Biomimetics, 2024)
    Sponges (phylum Porifera) were among the first metazoans on Earth, and represent a unique global source of highly structured and diverse biosilica that has been formed and tested over more than 800 million years of evolution. ...

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