Add to ORKGThis thesis presents investigations into supramolecular gels by Atomic Force Microscopy (AFM), rheometry and Small Angle Neutron Scattering (SANS) to study the assembly and disassembly processes of gels and their physical properties to develop a deeper understanding of the relationship between microscopic and macroscopic properties of gels. Supramolecular gels, which have a reversible nature and can be switched via external stimuli, and peptide gels of biological relevance were studied with the above-mentioned techniques
Joshi J, Homburg SV, Ehrmann A. Atomic Force Microscopy (AFM) on Biopolymers and Hydrogels for Biote...
Small molecules can self-assemble into one-dimensional structures to give self-supporting gels. Such...
Protein self-assembly and formation of amyloid fibers is an early event of numerous human diseases. ...
We report here, for the first time, the direct observation of the submicron structure of gel surface...
Peptide-assembled hydrogels have emerged as a promising biomaterial for tissue engineering due to th...
Intelligent materials that can undergo physical gelation in response to environmental stimuli have p...
The use of self-assembled gel in biomaterials and drug delivery is an important new area of research...
Atomic force microscopy (AFM) measurements were done on aqueous gelatin gels submerged in dodecane. ...
In this study we demonstrate the sensitivity of fibrillar self-assembly and gelation of aromatic pep...
This bachelor thesis focuses on atomic force microscopy (AFM), mainly on studying the measurement pr...
Molecular gels and fibrillar networks – a comprehensive guide to experiment and theory Molecular Gel...
Among the diversity of drug delivery systems for controlled release, supramolecular gels have recent...
Conformation and interactions between biological macromolecules are crucial for the mechanical prope...
The ability of short peptide fragments to self-assemble in isolation as amyloid and amyloid-like str...
Understanding the morphologies of molecules and particles has played a key role in understanding key...
Joshi J, Homburg SV, Ehrmann A. Atomic Force Microscopy (AFM) on Biopolymers and Hydrogels for Biote...
Small molecules can self-assemble into one-dimensional structures to give self-supporting gels. Such...
Protein self-assembly and formation of amyloid fibers is an early event of numerous human diseases. ...
We report here, for the first time, the direct observation of the submicron structure of gel surface...
Peptide-assembled hydrogels have emerged as a promising biomaterial for tissue engineering due to th...
Intelligent materials that can undergo physical gelation in response to environmental stimuli have p...
The use of self-assembled gel in biomaterials and drug delivery is an important new area of research...
Atomic force microscopy (AFM) measurements were done on aqueous gelatin gels submerged in dodecane. ...
In this study we demonstrate the sensitivity of fibrillar self-assembly and gelation of aromatic pep...
This bachelor thesis focuses on atomic force microscopy (AFM), mainly on studying the measurement pr...
Molecular gels and fibrillar networks – a comprehensive guide to experiment and theory Molecular Gel...
Among the diversity of drug delivery systems for controlled release, supramolecular gels have recent...
Conformation and interactions between biological macromolecules are crucial for the mechanical prope...
The ability of short peptide fragments to self-assemble in isolation as amyloid and amyloid-like str...
Understanding the morphologies of molecules and particles has played a key role in understanding key...
Joshi J, Homburg SV, Ehrmann A. Atomic Force Microscopy (AFM) on Biopolymers and Hydrogels for Biote...
Small molecules can self-assemble into one-dimensional structures to give self-supporting gels. Such...
Protein self-assembly and formation of amyloid fibers is an early event of numerous human diseases. ...