Add to ORKG© 2019 American Chemical Society. The graphene oxide (GO)-water interface was simulated using Born-Oppenheimer molecular dynamics (BOMD) simulations with two different functionals, namely, revPBE-D3 and BLYP-D2, as well as a commonly used classical force field, namely, OPLS-AA. A number of different order parameters, including the orientation of the interfacial water molecules near the aromatic region of the GO surface as well as those near the oxygenated defects, were examined and compared. The BOMD interfacial waters are clearly much less structured as compared to the classical force field that shows a strongly ordered interface. Higher-level calculations, namely, symmetry adapted perturbation theory, were performed on representative clus...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
Graphene oxide (GO) shares many novel mechanical and electronic properties with graphene and has bee...
© 2019 American Chemical Society. The graphene oxide (GO)-water interface was simulated using Born-O...
Interfaces are systems that contain two or more condensed phases existing together, which makes the ...
The interfacial region of the graphene oxide (GO)-water system is nonhomogenous due to the presence ...
The behavior of liquids separated by a single graphene membrane has been studied with extensive mole...
The wettability of defective graphene and its relation with the interfacial property of water have n...
The wettability of defective graphene and its relation with the interfacial property of water have n...
The behavior of liquids separated by a single graphene membrane has been studied with extensive mole...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
Graphene oxide (GO) shares many novel mechanical and electronic properties with graphene and has bee...
© 2019 American Chemical Society. The graphene oxide (GO)-water interface was simulated using Born-O...
Interfaces are systems that contain two or more condensed phases existing together, which makes the ...
The interfacial region of the graphene oxide (GO)-water system is nonhomogenous due to the presence ...
The behavior of liquids separated by a single graphene membrane has been studied with extensive mole...
The wettability of defective graphene and its relation with the interfacial property of water have n...
The wettability of defective graphene and its relation with the interfacial property of water have n...
The behavior of liquids separated by a single graphene membrane has been studied with extensive mole...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
International audienceWe report the calculation of the solid-liquid interface tension of the graphen...
Graphene oxide (GO) shares many novel mechanical and electronic properties with graphene and has bee...