AbstractWe would like to introduce bionanoparticles with their unique multifunctional and self-assembling properties. Particularly, protein cages like plant viruses or ferritin but also other well-defined self-assembling protein structural motifs are valuable building blocks with great potential in (bio-) nanotechnology. A steeply increasing number of research works present promising results and applications in biomedicine, diagnostics and analytics as well as nanoelectronics. However, the use of bionanoparticles for hybrid and soft protein–polymer composite materials has not received high attention yet. The article will first introduce the structural principles of well-defined protein complexes and exemplarily describe the structure of a f...
Proteins are ubiquitous biopolymers that adopt distinct three-dimensional structures and fulfill a m...
Advances in nanotechnology offer significant improvements in a wide range of applications that inclu...
Biological systems inherently posses the ability to synthesize and assemble nanomaterials with remar...
There is much interest in using biological structures for the fabrication of new functional material...
There is much interest in using biological structures for the fabrication of new functional material...
Protein cages, such as viruses, are well-defined biological nanostructures which are highly symmetri...
By using properties of biomolecules such as self-assembly and molecular recognition, a biological ap...
Molecular nanoparticles have been used as building blocks in the synthesis of functional materials. ...
In recent years, the practical application of protein-based nanoparticles (PNPs) has expanded rapidl...
Purified proteins offer a homogeneous population of biological nanoparticles, equipped in many cases...
<p> In this thesis it is demonstrated that it is possible to use Protein-based Polymers (PbPs) as sy...
Bionanoparticles offer both intra- and inter-molecular self-assembly. Obviously, when considering pr...
The focus of the research reported in this thesis is to design and synthesize materials based on the...
Polymers and their self-assembled structures constitute an essential part of life: Advances in synth...
Naturally occurring horse spleen ferritin (HSF) bionanoparticles (BNPs) (12 nm in diameter) with mag...
Proteins are ubiquitous biopolymers that adopt distinct three-dimensional structures and fulfill a m...
Advances in nanotechnology offer significant improvements in a wide range of applications that inclu...
Biological systems inherently posses the ability to synthesize and assemble nanomaterials with remar...
There is much interest in using biological structures for the fabrication of new functional material...
There is much interest in using biological structures for the fabrication of new functional material...
Protein cages, such as viruses, are well-defined biological nanostructures which are highly symmetri...
By using properties of biomolecules such as self-assembly and molecular recognition, a biological ap...
Molecular nanoparticles have been used as building blocks in the synthesis of functional materials. ...
In recent years, the practical application of protein-based nanoparticles (PNPs) has expanded rapidl...
Purified proteins offer a homogeneous population of biological nanoparticles, equipped in many cases...
<p> In this thesis it is demonstrated that it is possible to use Protein-based Polymers (PbPs) as sy...
Bionanoparticles offer both intra- and inter-molecular self-assembly. Obviously, when considering pr...
The focus of the research reported in this thesis is to design and synthesize materials based on the...
Polymers and their self-assembled structures constitute an essential part of life: Advances in synth...
Naturally occurring horse spleen ferritin (HSF) bionanoparticles (BNPs) (12 nm in diameter) with mag...
Proteins are ubiquitous biopolymers that adopt distinct three-dimensional structures and fulfill a m...
Advances in nanotechnology offer significant improvements in a wide range of applications that inclu...
Biological systems inherently posses the ability to synthesize and assemble nanomaterials with remar...