Search Results - "Le Sage, Vincent A. A."

Hierarchically Compartmentalized Supramolecular Gels through Multilevel Self-Sorting by Wang, Yiming, Lovrak, Matija, Liu, Qian, Maity, Chandan, le Sage, Vincent A. A, Guo, Xuhong, Eelkema, Rienk, van Esch, Jan H

“…Hierarchical compartmentalization through the bottom-up approach is ubiquitous in living cells but remains a formidable task in synthetic systems. Here we…”
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Biomimetic Strain‐Stiffening Self‐Assembled Hydrogels by Wang, Yiming, Xu, Zhi, Lovrak, Matija, Sage, Vincent A. A., Zhang, Kai, Guo, Xuhong, Eelkema, Rienk, Mendes, Eduardo, Esch, Jan H.

“…Supramolecular structures with strain‐stiffening properties are ubiquitous in nature but remain rare in the lab. Herein, we report on strain‐stiffening…”
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Responsive biomimetic networks from polyisocyanopeptide hydrogels by Kouwer, Paul H. J., Koepf, Matthieu, Le Sage, Vincent A. A., Jaspers, Maarten, van Buul, Arend M., Eksteen-Akeroyd, Zaskia H., Woltinge, Tim, Schwartz, Erik, Kitto, Heather J., Hoogenboom, Richard, Picken, Stephen J., Nolte, Roeland J. M., Mendes, Eduardo, Rowan, Alan E.

“…Thermal transitions of polyisocyanide single molecules to polymer bundles and finally networks lead to hydrogels mimicking the properties of biopolymer…”
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Gelation Landscape Engineering Using a Multi-Reaction Supramolecular Hydrogelator System by Foster, Jamie S, Żurek, Justyna M, Almeida, Nuno M. S, Hendriksen, Wouter E, le Sage, Vincent A. A, Lakshminarayanan, Vasudevan, Thompson, Amber L, Banerjee, Rahul, Eelkema, Rienk, Mulvana, Helen, Paterson, Martin J, van Esch, Jan H, Lloyd, Gareth O

“…Simultaneous control of the kinetics and thermo­dynamics of two different types of covalent chemistry allows pathway selectivity in the formation of…”
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Negatively Charged Lipid Membranes Catalyze Supramolecular Hydrogel Formation by Versluis, Frank, van Elsland, Daphne M, Mytnyk, Serhii, Perrier, Dayinta L, Trausel, Fanny, Poolman, Jos M, Maity, Chandan, le Sage, Vincent A. A, van Kasteren, Sander I, van Esch, Jan H, Eelkema, Rienk

“…In this contribution we show that biological membranes can catalyze the formation of supramolecular hydrogel networks. Negatively charged lipid membranes can…”
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Biomimetic Strain‐Stiffening Self‐Assembled Hydrogels by Wang, Yiming, Xu, Zhi, Lovrak, Matija, Sage, Vincent A. A., Zhang, Kai, Guo, Xuhong, Eelkema, Rienk, Mendes, Eduardo, Esch, Jan H.

“…Supramolecular structures with strain‐stiffening properties are ubiquitous in nature but remain rare in the lab. Herein, we report on strain‐stiffening…”
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Rücktitelbild: Biomimetic Strain‐Stiffening Self‐Assembled Hydrogels (Angew. Chem. 12/2020) by Wang, Yiming, Xu, Zhi, Lovrak, Matija, Sage, Vincent A. A., Zhang, Kai, Guo, Xuhong, Eelkema, Rienk, Mendes, Eduardo, Esch, Jan H.

“…Biomimetische unter Spannung erstarrende Hydrogele wurden durch die Selbstassemblierung molekularer Gelbildner hergestellt, wie von J. H. van Esch et al. in…”
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Back Cover: Biomimetic Strain‐Stiffening Self‐Assembled Hydrogels (Angew. Chem. Int. Ed. 12/2020) by Wang, Yiming, Xu, Zhi, Lovrak, Matija, Sage, Vincent A. A., Zhang, Kai, Guo, Xuhong, Eelkema, Rienk, Mendes, Eduardo, Esch, Jan H.

“…Biomimetic strain‐stiffening supramolecular hydrogels were prepared through the self‐assembly of molecular gelators, as shown by J. H. van Esch and co‐workers…”
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Controlling the gelation temperature of biomimetic polyisocyanides by Kouwer, Paul H.J., de Almeida, Paula, ven den Boomen, Onno, Eksteen-Akeroyd, Zaskia H., Hammink, Roel, Jaspers, Maarten, Kragt, Stijn, Mabesoone, Mathijs F.J., Nolte, Roeland J.M., Rowan, Alan E., Rutten, Martin G.T.A., Le Sage, Vincent A.A., Schoenmakers, Daniël C., Xing, Chengfen, Xu, Jialiang

“…Thermosensitive polymers show an entropy-driven transition from a well-solvated to a poorly solvated polymer chain, resulting in a more compact globular…”
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