Add to ORKGThe nano-confinement of the surface potential of various layered minerals can be exploited for application in nano-biotechnology, such as the control of DNA deposition and conformation, enzyme interactions and nucelotide and cells adsorption. This work reports on recent innovative results of the above very active interactions related to clinochlore and other layered mineral surfaces, however once believed as biologicaly inactive. A throughout discussion opening new horizons in biotech is reported
The knowledge of the surface properties of layered minerals is of great importance to understand ba...
Interactions between inorganic materials and biomolecules at the molecular level, although complex, ...
none1noThe ability to control the binding of biological and organic molecules to a crystal surface i...
The nano-confinement of the surface potential of various layered minerals can be exploited for appli...
Important achievements in the field of layer silicate nanotopography and their interaction with bio-...
The ability to control the binding of biological and organic molecules to a crystal surface is centr...
The relationship between nanomorphology and surface potential of clay and layered minerals and inter...
The main purpose of this paper aims at the characterisation of the surface potential of various la...
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 author is invited by the Pio Manzu' Intl Research Center to write down and report on his recent ...
none3noThe ability to control the binding of biological and organic molecules to a crystal surface i...
The knowledge of the surface properties of layered minerals is of great importance to understand ba...
Interactions between inorganic materials and biomolecules at the molecular level, although complex, ...
none1noThe ability to control the binding of biological and organic molecules to a crystal surface i...
The nano-confinement of the surface potential of various layered minerals can be exploited for appli...
Important achievements in the field of layer silicate nanotopography and their interaction with bio-...
The ability to control the binding of biological and organic molecules to a crystal surface is centr...
The relationship between nanomorphology and surface potential of clay and layered minerals and inter...
The main purpose of this paper aims at the characterisation of the surface potential of various la...
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 author is invited by the Pio Manzu' Intl Research Center to write down and report on his recent ...
none3noThe ability to control the binding of biological and organic molecules to a crystal surface i...
The knowledge of the surface properties of layered minerals is of great importance to understand ba...
Interactions between inorganic materials and biomolecules at the molecular level, although complex, ...
none1noThe ability to control the binding of biological and organic molecules to a crystal surface i...