Add to ORKGMaterials scientists have become increasingly interested in combining natural and synthetic polymers into hybrid polymeric structures. The functionality of (fragments of) biopolymers can be integrated with the synthetic versatility and adaptability of synthetic polymers, thus creating a new class of materials harnessing the best of both worlds. Due to recent developments in synthetic methodologies, the ability of con-structing well-defined hybrid materials has improved greatly. In this chapter an overview is given of the different approaches to peptide-polymer hybrids and the appli-cations that are foreseen for this new class of materials
Polymers and their self-assembled structures constitute an essential part of life: Advances in synth...
Over the last ten years the attention of the pharmaceutical industry has shifted away from small mol...
Combinations of synthetic and natural macromolecules offer a route to new functional materials. Whil...
The focus of this dissertation is the design, synthesis and characterization of hybrid functional bi...
\u3cp\u3eCreating bioconjugates by combining polymers with peptides and proteins is an emerging mult...
Biopolymers such as proteins and nucleic acids are the key building blocks of life. Synthetic polyme...
Biopolymers such as proteins and nucleic acids are the key building blocks of life. Synthetic polyme...
During the last decades, numerous studies have focused on combining the unique catalytic/functional ...
Hybrid block copolymers based on peptides and synthetic polymers, displaying different types of topo...
During the last decades, numerous studies have focused on combining the unique catalytic/functional ...
Hybrid block copolymers based on peptides and synthetic polymers, displaying different types of topo...
Hybrid block copolymers based on peptides and synthetic polymers, displaying different types of topo...
Our research group are dedicated to bridging synthetic and biological macromolecules.Particularly in...
Recent advances in synthetic methodologies have brought us closer than ever to the precision conferr...
In this chapter, an intelligent design of synthetic peptides and their implementation in biomaterial...
Polymers and their self-assembled structures constitute an essential part of life: Advances in synth...
Over the last ten years the attention of the pharmaceutical industry has shifted away from small mol...
Combinations of synthetic and natural macromolecules offer a route to new functional materials. Whil...
The focus of this dissertation is the design, synthesis and characterization of hybrid functional bi...
\u3cp\u3eCreating bioconjugates by combining polymers with peptides and proteins is an emerging mult...
Biopolymers such as proteins and nucleic acids are the key building blocks of life. Synthetic polyme...
Biopolymers such as proteins and nucleic acids are the key building blocks of life. Synthetic polyme...
During the last decades, numerous studies have focused on combining the unique catalytic/functional ...
Hybrid block copolymers based on peptides and synthetic polymers, displaying different types of topo...
During the last decades, numerous studies have focused on combining the unique catalytic/functional ...
Hybrid block copolymers based on peptides and synthetic polymers, displaying different types of topo...
Hybrid block copolymers based on peptides and synthetic polymers, displaying different types of topo...
Our research group are dedicated to bridging synthetic and biological macromolecules.Particularly in...
Recent advances in synthetic methodologies have brought us closer than ever to the precision conferr...
In this chapter, an intelligent design of synthetic peptides and their implementation in biomaterial...
Polymers and their self-assembled structures constitute an essential part of life: Advances in synth...
Over the last ten years the attention of the pharmaceutical industry has shifted away from small mol...
Combinations of synthetic and natural macromolecules offer a route to new functional materials. Whil...