We use atomic force microscopy to in situ investigate the dynamic behavior of confined water at the interface between graphene and mica. The graphene is either uncharged, negatively charged, or positively charged. At high humidity, a third water layer will intercalate between graphene and mica. When graphene is negatively charged, the interface fills faster with a complete three layer water film, compared to uncharged graphene. As charged positively, the third water layer dewets the interface, either by evaporation into the ambient or by the formation of three-dimensional droplets under the graphene, on top of the bilayer. Our experimental findings reveal novel phenomena of water at the nanoscale, which are interesting from a fundamental po...
The structure and dynamics of water under a geometric confinement is of great significance due to it...
ABSTRACT: We report on the existence of water-gated charge doping of graphene deposited on atomicall...
The structure of water confined in nanometer-sized cavities is important because, at this scale, a l...
We use atomic force microscopy to in situ investigate the dynamic behavior of confined water at the ...
We use atomic force microscopy to in situ investigate the dynamic behavior of confined water at the ...
We use atomic force microscopy to in situ investigate the dynamic behavior of confined water at the ...
We report that the conductance of graphene is influenced by intercalated water layers using current ...
The behavior of water under confinement is of utmost importance for the field of electrocatalysis, n...
Holey-graphene (HG) is a particular form of nanoporous graphene consisting of a vertically separated...
Hydration of interfaces with a layer of water is a ubiquitous phenomenon, which has important implic...
Hydration of interfaces with a layer of water is a ubiquitous phenomenon, which has important implic...
Hydration of interfaces with a layer of water is a ubiquitous phenomenon, which has important implic...
We report the wetting behavior of graphitic surface−water interfaces through the calculation of the ...
The behavior of water and other molecular liquids confined to the nanoscale is of fundamental import...
Graphitic nanoscale allotropes such as graphene and carbon nanotubes have inspired science and engin...
The structure and dynamics of water under a geometric confinement is of great significance due to it...
ABSTRACT: We report on the existence of water-gated charge doping of graphene deposited on atomicall...
The structure of water confined in nanometer-sized cavities is important because, at this scale, a l...
We use atomic force microscopy to in situ investigate the dynamic behavior of confined water at the ...
We use atomic force microscopy to in situ investigate the dynamic behavior of confined water at the ...
We use atomic force microscopy to in situ investigate the dynamic behavior of confined water at the ...
We report that the conductance of graphene is influenced by intercalated water layers using current ...
The behavior of water under confinement is of utmost importance for the field of electrocatalysis, n...
Holey-graphene (HG) is a particular form of nanoporous graphene consisting of a vertically separated...
Hydration of interfaces with a layer of water is a ubiquitous phenomenon, which has important implic...
Hydration of interfaces with a layer of water is a ubiquitous phenomenon, which has important implic...
Hydration of interfaces with a layer of water is a ubiquitous phenomenon, which has important implic...
We report the wetting behavior of graphitic surface−water interfaces through the calculation of the ...
The behavior of water and other molecular liquids confined to the nanoscale is of fundamental import...
Graphitic nanoscale allotropes such as graphene and carbon nanotubes have inspired science and engin...
The structure and dynamics of water under a geometric confinement is of great significance due to it...
ABSTRACT: We report on the existence of water-gated charge doping of graphene deposited on atomicall...
The structure of water confined in nanometer-sized cavities is important because, at this scale, a l...