Add to ORKGGraphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in large quantities. However, its structural and electrical properties remain far from those of the graphene sheets obtained by mechanical exfoliation or by chemical vapor deposition unless efficient reduction methods that preserve the integrity of the parent carbon-network structure are found. Here, the authors use molecular dynamics and density functional theory calculations to show that the oxygen from the main functional groups present on graphene oxide sheets is removed by the reducing action of carbon monoxide; the energy barriers for reduction by CO are very small and easily overcome at low temperatures. Infrared and Raman spectroscopy expe...
As silicon-based electronics are reaching the nanosize limits of the semiconductor roadmap, carbon-b...
[EN] Low-temperature (-176 degrees C) CO adsorption on graphene oxide and partially reduced graphene...
Reduced graphene oxide (rGO) is a promising material for a variety of thin-film optoelectronic appli...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
The reduction of graphene oxide surfaces yielding molecular CO/CO(2) is studied from first principle...
The reduction of graphene oxide surfaces yielding molecular CO/CO(2) is studied from first principle...
An efficient reduction method to obtain high-quality graphene sheets from mass-producible graphene o...
As silicon-based electronics are reaching the nanosize limits of the semiconductor roadmap, carbon-b...
An efficient reduction method to obtain high-quality graphene sheets from mass-producible graphene o...
As silicon-based electronics are reaching the nanosize limits of the semiconductor roadmap, carbon-b...
[EN] Low-temperature (-176 degrees C) CO adsorption on graphene oxide and partially reduced graphene...
Reduced graphene oxide (rGO) is a promising material for a variety of thin-film optoelectronic appli...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
Graphene oxide holds promise as a carbon-based nanomaterial that can be produced inexpensively in la...
The reduction of graphene oxide surfaces yielding molecular CO/CO(2) is studied from first principle...
The reduction of graphene oxide surfaces yielding molecular CO/CO(2) is studied from first principle...
An efficient reduction method to obtain high-quality graphene sheets from mass-producible graphene o...
As silicon-based electronics are reaching the nanosize limits of the semiconductor roadmap, carbon-b...
An efficient reduction method to obtain high-quality graphene sheets from mass-producible graphene o...
As silicon-based electronics are reaching the nanosize limits of the semiconductor roadmap, carbon-b...
[EN] Low-temperature (-176 degrees C) CO adsorption on graphene oxide and partially reduced graphene...
Reduced graphene oxide (rGO) is a promising material for a variety of thin-film optoelectronic appli...