Add to ORKGRecombinant protein polymers, which can combine different bioinspired self-assembly motifs in a well-defined block sequence, have large potential as building blocks for making complex, hierarchically structured materials. In this paper we demonstrate the stepwise formation of thermosensitive hydrogels by combination of two distinct, orthogonal self-assembly mechanisms. In the first step, fibers are coassembled from two recombinant protein polymers: (a) a symmetric silk-like block copolymer consisting of a central silk-like block flanked by two soluble random coil blocks and (b) an asymmetric silk-collagen-like block copolymer consisting of a central random-coil block flanked on one side by a silk-like block and on the other side a collagen-...
Hydrogels are crosslinked polymer networks that absorb large amounts of aqueous solutions. The varie...
Hydrogels are crosslinked polymer networks that absorb large amounts of aqueous solutions. The varie...
Complex recombinant biomaterials that merge the self-assembling properties of different (poly)pepti...
Recombinant protein polymers, which can combine different bioinspired self-assembly motifs in a well...
We study the self-assembly of genetically engineered protein-based triblock copolymers consisting of...
We study the self-assembly of genetically engineered protein-based triblock copolymers consisting of...
We study the self-assembly of genetically engineered protein-based triblock copolymers consisting of...
Polymers exhibiting lower critical solution behavior in water have found broad use as thermoresponsi...
Polymer self-assembly leading to cooling-induced hydrogel formation is relatively rare for synthetic...
We present a detailed study of self-assembled hydrogels of bundled and cross-linked networks consist...
We present a detailed study of self-assembled hydrogels of bundled and cross-linked networks consist...
The aim of the project is to develop biosynthetically produced amino acid polymers which are...
We study the self-assembly of protein polymers consisting of a silk-like block flanked by two hydrop...
<p> </p> <p> <em>The aim of the project is to develop biosynthetically produced amino acid polymers ...
<p>We study the self-assembly of protein polymers consisting of a silk-like block flanked by two hyd...
Hydrogels are crosslinked polymer networks that absorb large amounts of aqueous solutions. The varie...
Hydrogels are crosslinked polymer networks that absorb large amounts of aqueous solutions. The varie...
Complex recombinant biomaterials that merge the self-assembling properties of different (poly)pepti...
Recombinant protein polymers, which can combine different bioinspired self-assembly motifs in a well...
We study the self-assembly of genetically engineered protein-based triblock copolymers consisting of...
We study the self-assembly of genetically engineered protein-based triblock copolymers consisting of...
We study the self-assembly of genetically engineered protein-based triblock copolymers consisting of...
Polymers exhibiting lower critical solution behavior in water have found broad use as thermoresponsi...
Polymer self-assembly leading to cooling-induced hydrogel formation is relatively rare for synthetic...
We present a detailed study of self-assembled hydrogels of bundled and cross-linked networks consist...
We present a detailed study of self-assembled hydrogels of bundled and cross-linked networks consist...
The aim of the project is to develop biosynthetically produced amino acid polymers which are...
We study the self-assembly of protein polymers consisting of a silk-like block flanked by two hydrop...
<p> </p> <p> <em>The aim of the project is to develop biosynthetically produced amino acid polymers ...
<p>We study the self-assembly of protein polymers consisting of a silk-like block flanked by two hyd...
Hydrogels are crosslinked polymer networks that absorb large amounts of aqueous solutions. The varie...
Hydrogels are crosslinked polymer networks that absorb large amounts of aqueous solutions. The varie...
Complex recombinant biomaterials that merge the self-assembling properties of different (poly)pepti...