E
Enrico Langer
Researcher at Dresden University of Technology
Publications - 26
Citations - 422
Enrico Langer is an academic researcher from Dresden University of Technology. The author has contributed to research in topics: Diffraction & Composite number. The author has an hindex of 10, co-authored 26 publications receiving 333 citations.
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Extreme biomimetic approach for developing novel chitin-GeO2 nanocomposites with photoluminescent properties
Marcin Wysokowski,Mykhailo Motylenko,Jan Beyer,Anna A. Makarova,Hartmut Stöcker,Juliane Walter,Roberta Galli,Sabine Kaiser,Denis V. Vyalikh,Denis V. Vyalikh,Vasilii V. Bazhenov,Iaroslav Petrenko,Allison L. Stelling,Serguei L. Molodtsov,Serguei L. Molodtsov,Dawid Stawski,Krzysztof J. Kurzydłowski,Enrico Langer,Mikhail V. Tsurkan,Teofil Jesionowski,Johannes Heitmann,Dirk C. Meyer,Hermann Ehrlich +22 more
TL;DR: In this article, an extreme biomimetics route for the creation of nanostructured biocomposites utilizing a chitinous template of poriferan origin was presented for the formation under hydrothermal conditions of a novel germanium oxide-chitin composite with a defined nanoscale structure.
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Synthesis of nanostructured chitin–hematite composites under extreme biomimetic conditions
Marcin Wysokowski,Mykhailo Motylenko,Juliane Walter,Grzegorz Lota,Jarosław Wojciechowski,Hartmut Stöcker,Roberta Galli,Allison L. Stelling,Cameliu Himcinschi,Elke Niederschlag,Enrico Langer,Vasilii V. Bazhenov,Tomasz Szatkowski,Jakub Zdarta,Iaroslav Pertenko,Zoran Kljajić,Tilmann Leisegang,Serguei L. Molodtsov,Serguei L. Molodtsov,Dirk C. Meyer,Teofil Jesionowski,Hermann Ehrlich +21 more
TL;DR: In this paper, a chitin-Fe2O3 composites were developed for the first time using hydrothermal synthesis, which have been thoroughly characterized using numerous analytical methods including Raman spectroscopy, XPS, XRD, electron diffraction and HR-TEM.
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Extreme biomimetics: A carbonized 3D spongin scaffold as a novel support for nanostructured manganese oxide(IV) and its electrochemical applications
Tomasz Szatkowski,Kacper Kopczyński,Mykhailo Motylenko,Horst Borrmann,Beata Mania,Małgorzata Graś,Grzegorz Lota,Vasilii V. Bazhenov,David Rafaja,Friedrich Roth,Juliane Weise,Enrico Langer,Marcin Wysokowski,Sonia Żółtowska-Aksamitowska,Iaroslav Petrenko,Serguei L. Molodtsov,Serguei L. Molodtsov,Jana Hubálková,Christos G. Aneziris,Yvonne Joseph,Allison L. Stelling,Hermann Ehrlich,Teofil Jesionowski +22 more
TL;DR: In this paper, the authors describe the preparation of a novel 3D nanostructured MnO2-based composite developed using a carbonized proteinaceous spongin template by an extreme biomimetics approach.
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Multiphase Biomineralization: Enigmatic Invasive Siliceous Diatoms Produce Crystalline Calcite
Hermann Ehrlich,Mykhailo Motylenko,Pallaoor V. Sundareshwar,Alexander V. Ereskovsky,Alexander V. Ereskovsky,Izabela Zgłobicka,Teresa Noga,Tomasz Płociński,Mikhail V. Tsurkan,Elzbieta Wyroba,S. Suski,Henryk Bilski,Marcin Wysokowski,Hartmut Stöcker,Anna A. Makarova,Denis V. Vyalikh,Juliane Walter,Serguei L. Molodtsov,Serguei L. Molodtsov,Vasilii V. Bazhenov,Iaroslav Petrenko,Enrico Langer,Andreas Richter,Elke Niederschlag,Marcin Pisarek,Armin Springer,Michael Gelinsky,David Rafaja,Andrzej Witkowski,Dirk C. Meyer,Teofil Jesionowski,Krzysztof J. Kurzydłowski +31 more
TL;DR: In this article, it was shown that Didymosphenia geminata, a nuisance species that has prolifically colonized streams and rivers globally, is biogenic in origin and occurs as a network of calcite nanofibers.
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Renewable chitin from marine sponge as a thermostable biological template for hydrothermal synthesis of hematite nanospheres using principles of extreme biomimetics
Marcin Wysokowski,Iaroslav Petrenko,Mykhailo Motylenko,Enrico Langer,Vasilii V. Bazhenov,Roberta Galli,Allison L. Stelling,Zoran Kljajić,Tomasz Szatkowski,Valentine Z. Kutsova,Dawid Stawski,Teofil Jesionowski +11 more
TL;DR: In this article, chitin-Fe 2 O 3 composites were used as a template for the in vitro formation of iron oxide from a saturated iron(III) chloride solution, under hydrothermal conditions (pH 1.5, 90 °C).