Add to ORKGThe physical-chemistry of the graphene/aqueous-electrolyte interface underpins the operational conditions of a wide range of devices. Despite its importance, this interface is poorly understood due to the challenges faced in its experimental characterization and the difficulty of developing models that encompass its full physics. In this review we first summarize the classical theory of the electrochemical double layer, with the aim of defining a universal nomenclature to link experiments and simulations within a single unified framework. We then present the most recent experimental, theoretical and computational data and discuss how they compare with standard theory. The review ends with some remarks about how to compare simulations and ex...
The ability of graphene and carbon nanotubes to generate an electric potential from flowing fluids h...
Understanding the mechanism for charge transfer between electrodes within an electrolyte dissolved i...
In this thesis unconventional tools based on fluidic interfaces were developed to study the surface ...
Fluid/solid interfaces containing single-layer graphene are important in the areas of chemistry, phy...
We present the coupling of two frameworks -- the pseudo-open boundary simulation method known as con...
International audienceMany key industrial processes, from electricity production, conversion, and st...
The interfacial behavior of graphene is involved in a number of technological processes and applicat...
Arising from questions regarding electric double-layer capacitors utilizing graphene electrodes and ...
The structure of interfacial water near suspended graphene electrodes in contact with aqueous soluti...
Understanding the mechanism for charge transfer between a graphene biosensor and its electrodes with...
Advances in technology for electrochemical energy storage require increased understanding of electro...
textcopyright 2018 American Chemical Society. Green, stable, and wide electrochemical window deep eu...
Green, stable, and wide electrochemical window deep eutectic solvents (DESs) are ideal candidates fo...
Molecular dynamics simulations are carried out to investigate the structure and capacitance of the e...
International audienceIonic liquids (ILs) are promising electrolytes for electrochemical application...
The ability of graphene and carbon nanotubes to generate an electric potential from flowing fluids h...
Understanding the mechanism for charge transfer between electrodes within an electrolyte dissolved i...
In this thesis unconventional tools based on fluidic interfaces were developed to study the surface ...
Fluid/solid interfaces containing single-layer graphene are important in the areas of chemistry, phy...
We present the coupling of two frameworks -- the pseudo-open boundary simulation method known as con...
International audienceMany key industrial processes, from electricity production, conversion, and st...
The interfacial behavior of graphene is involved in a number of technological processes and applicat...
Arising from questions regarding electric double-layer capacitors utilizing graphene electrodes and ...
The structure of interfacial water near suspended graphene electrodes in contact with aqueous soluti...
Understanding the mechanism for charge transfer between a graphene biosensor and its electrodes with...
Advances in technology for electrochemical energy storage require increased understanding of electro...
textcopyright 2018 American Chemical Society. Green, stable, and wide electrochemical window deep eu...
Green, stable, and wide electrochemical window deep eutectic solvents (DESs) are ideal candidates fo...
Molecular dynamics simulations are carried out to investigate the structure and capacitance of the e...
International audienceIonic liquids (ILs) are promising electrolytes for electrochemical application...
The ability of graphene and carbon nanotubes to generate an electric potential from flowing fluids h...
Understanding the mechanism for charge transfer between electrodes within an electrolyte dissolved i...
In this thesis unconventional tools based on fluidic interfaces were developed to study the surface ...