Add to ORKGThe ability to control the binding of biological and organic molecules to a crystal surface is central to several research areas and technological applications, in particular biotechnology, catalysis, molecular microarrays, biosensors and environmental sciences. Furthermore, investigating the way mineral surfaces interact with biomolecules has fundamental implications considering that these substrates may have played an important role as catalysts for the polymerization of biomolecules in the prebiotic environment. In this contribution we present recent achievements in the field of the interaction between mineral surfaces and bio-organic molecules. For example, we found that DNA molecules have different binding affinities and assume d...
For technological purposes there is an urge towards the fundamental knowledge of biomolecules-clay i...
Interactions between inorganic materials and biomolecules at the molecular level, although complex, ...
The interactions of silica surfaces with water and biomolecules are of considerable significance in ...
The ability to control the binding of biological and organic molecules to a crystal surface is centr...
Important achievements in the field of layer silicate nanotopography and their interaction with bio-...
The main purpose of this paper aims at the characterisation of the surface potential of various la...
The nano-confinement of the surface potential of various layered minerals can be exploited for appli...
none6noneAntognozzi M.; Wotherspoon A.; Hayes J.M.; Miles M.J.; Szczelkun M.; Valdre G.Antognozzi M....
The availability of advanced nanotechnological methodologies (experimental and theoretical) has wi...
This study is focused on clinochlore crystal chemistry and on its surface interactions with biomolec...
The control of the bond between biomolecules and a solid surface has a meaningful impact in many res...
The preparation of DNA-based nanostructures is usually accomplished in solution, by the controlled-t...
In this work, we studied the interaction of glycine with the (001) surface of chlorite mineral at a ...
For technological purposes there is an urge towards the fundamental knowledge of biomolecules-clay i...
Interactions between inorganic materials and biomolecules at the molecular level, although complex, ...
The interactions of silica surfaces with water and biomolecules are of considerable significance in ...
The ability to control the binding of biological and organic molecules to a crystal surface is centr...
Important achievements in the field of layer silicate nanotopography and their interaction with bio-...
The main purpose of this paper aims at the characterisation of the surface potential of various la...
The nano-confinement of the surface potential of various layered minerals can be exploited for appli...
none6noneAntognozzi M.; Wotherspoon A.; Hayes J.M.; Miles M.J.; Szczelkun M.; Valdre G.Antognozzi M....
The availability of advanced nanotechnological methodologies (experimental and theoretical) has wi...
This study is focused on clinochlore crystal chemistry and on its surface interactions with biomolec...
The control of the bond between biomolecules and a solid surface has a meaningful impact in many res...
The preparation of DNA-based nanostructures is usually accomplished in solution, by the controlled-t...
In this work, we studied the interaction of glycine with the (001) surface of chlorite mineral at a ...
For technological purposes there is an urge towards the fundamental knowledge of biomolecules-clay i...
Interactions between inorganic materials and biomolecules at the molecular level, although complex, ...
The interactions of silica surfaces with water and biomolecules are of considerable significance in ...