Zobrazeno 1 - 7
of 7
pro vyhledávání: '"Vasily V. Bazhenov"'
Autor:
Eike Brunner, Martin Kammer, Vasily V. Bazhenov, René Born, Joseph P. Botting, Serguei L. Molodtsov, Adam P. Summers, Denis V. Kurek, Petros G. Koutsoukos, Paul Simon, Kurt Kummer, Armin Springer, Hermann Ehrlich, Denis V. Vyalikh, Stanislav N. Gorb, Kontantin R. Tabachnick, Alexander Kovalev
Publikováno v:
Advanced Functional Materials. 21:3473-3481
The hierarchically structured glass sponge Caulophacus species uses the first known example of a silica and calcite biocomposite to join the spicules of its skeleton together. In the stalk and body skeleton of this poorly known deep-sea glass sponge
Autor:
Eike Brunner, Wilder Carrillo-Cabrera, Micha Ilan, Armin Springer, Silvia Paasch, Guilherme Muricy, Hermann Ehrlich, Hartmut Worch, René Born, Axel Mensch, Kurt Kummer, Paul Simon, Denis V. Kurek, Serguei L. Molodtsov, Alexander V. Ereskovsky, Vasily V. Bazhenov, Denis V. Vyalikh, Martin Kammer, Joseph P. Botting
Publikováno v:
Chemistry of Materials. 22:1462-1471
Biological materials are a rewarding area of modern materials science, yielding both evolutionary insights and inspiration for biomimetic research. In particular, biocomposite structures are valuable sources of novel structures with unusual chemical
Autor:
Vasily V. Bazhenov, Thomas Henle, Dorin Geiger, Ralf Hoffmann, Christiane Fischer, René Born, Thomas Hanke, Hartmut Worch, Andrej Frolov, Uwe Schwarzenbolz, Paul Simon, Tobias Langrock, Hermann Ehrlich
Publikováno v:
Journal of Membrane Science. 326:254-259
In the present work, we show for the first time, that N ɛ -carboxymethyllysine is the major product of the in vitro non-enzymatic glycation reaction between fibrillar collagen and glucuronic acid . Dual diffusion membrane system was effectively used
Autor:
Paul Simon, René Born, Hartmut Worch, Sascha Heinemann, Hermann Ehrlich, John N. Vournakis, N. P. Shapkin, Thomas Hanke, Christiane Erler, Michael Mertig, Vasily V. Bazhenov, Dorte Janussen
Publikováno v:
Journal of Nanomaterials, Vol 2008 (2008)
Investigations of the micro- and nanostructures and chemical composition of the sponge skeletons as examples for natural structural biocomposites are of fundamental scientific relevance. Recently, we show that some demosponges (Verongula gigantea, Ap
Autor:
Carsten Baessmann, Jane Thomas-Oates, Kurt Kummer, Eike Brunner, Gert Wörheide, Hermann Ehrlich, Serguei L. Molodtsov, Victor Smetacek, Caroline Solazzo, Hartmut Worch, Aleksander V Ereskovsky, Matthew J. Collins, David A. Ashford, Denis V. Kurek, Denis V. Vyalikh, Yang Yue, Rainer Deutzmann, S. Hunoldt, Paul Simon, Mikhail V. Tsurkan, Vasily V. Bazhenov, Hannah E.C. Koon, Markus Lubeck, Enrico Cappellini, Michael Mertig, Ralf Hoffmann, Tobias Langrock, Joachim Reitner
Publikováno v:
Nature chemistry. 2(12)
The minerals involved in the formation of metazoan skeletons principally comprise glassy silica, calcium phosphate or carbonate. Because of their ancient heritage, glass sponges (Hexactinellida) may shed light on fundamental questions such as molecul
Autor:
René Born, Yury N. Elkin, Alexandr A. Artoukov, Valentin A. Stonik, Heike Meissner, Denis V. Kurek, Herman Ehrlich, Vasily V. Bazhenov, Gert Richter, Peter P. Safronov, Valery P. Varlamov
Publikováno v:
Marine biotechnology (New York, N.Y.). 13(3)
Unique skeletal formations of marine invertebrates, including representatives of Echinodermata, have the unique potential to serve as templates for bio-inspired materials chemistry, biomimetics, and materials science. The sand dollar Scaphechinus mir
Autor:
René Born, Uwe Schwarzenbolz, Paul Simon, Andrej Frolov, Tobias Langrock, Vasily V. Bazhenov, Thomas Hanke, Hermann Ehrlich, Thomas Henle, Hartmut Worch, Ralf Hoffmann, Christiane Fischer
Publikováno v:
Journal of Biomedical Materials Research Part B: Applied Biomaterials.
Control over crystal growth by acidic matrix macromolecules is an important process in the formation of many mineralized tissues. Highly acidic macromolecules are postulated intermediates in tissue mineralization, because they sequester many calcium