Add to ORKGMaking workable devices from graphene Graphene is difficult to handle: • Tendency to aggregate • Limited reactivity. Chemical modification improves handling and introduces functionality. A promising method is the addition of aryl diazonium salts
Modification of carbon materials such as graphite and glassy carbon in bulk quantities using diazoni...
A convenient covalent functionalization approach and nanopatterning method of graphite and graphene ...
A convenient covalent functionalization approach and nanopatterning method of graphite and graphene ...
We shine light on the covalent modification of graphite and graphene substrates using diazonium chem...
We shine light on the covalent modification of graphite and graphene substrates using diazonium chem...
Development of applications for graphene are currently hampered by its poor dispersion in common, lo...
We describe a fast and versatile method to functionalize high-quality graphene with organic molecule...
Free-floating, and copper-supported, few-layer graphene sheets were spontaneously modified from an a...
Covalent functionalization of graphene is highly sought after, not only in view of the potential app...
We shine light on the covalent modification of graphite and graphene substrates using diazonium chem...
Modification of carbon materials such as graphite and glassy carbon in bulk quantities using diazoni...
We describe a fast and versatile method to functionalize high-quality graphene with organic molecule...
Graphene, a two-dimensional sheet of atomically thin carbon, has recently gained attention due to it...
Fast and efficient surface functionalization of graphene is achieved by the electrochemical formatio...
Graphene (GR) attracts increasing attention due to its unique physical and chemical properties, thus...
Modification of carbon materials such as graphite and glassy carbon in bulk quantities using diazoni...
A convenient covalent functionalization approach and nanopatterning method of graphite and graphene ...
A convenient covalent functionalization approach and nanopatterning method of graphite and graphene ...
We shine light on the covalent modification of graphite and graphene substrates using diazonium chem...
We shine light on the covalent modification of graphite and graphene substrates using diazonium chem...
Development of applications for graphene are currently hampered by its poor dispersion in common, lo...
We describe a fast and versatile method to functionalize high-quality graphene with organic molecule...
Free-floating, and copper-supported, few-layer graphene sheets were spontaneously modified from an a...
Covalent functionalization of graphene is highly sought after, not only in view of the potential app...
We shine light on the covalent modification of graphite and graphene substrates using diazonium chem...
Modification of carbon materials such as graphite and glassy carbon in bulk quantities using diazoni...
We describe a fast and versatile method to functionalize high-quality graphene with organic molecule...
Graphene, a two-dimensional sheet of atomically thin carbon, has recently gained attention due to it...
Fast and efficient surface functionalization of graphene is achieved by the electrochemical formatio...
Graphene (GR) attracts increasing attention due to its unique physical and chemical properties, thus...
Modification of carbon materials such as graphite and glassy carbon in bulk quantities using diazoni...
A convenient covalent functionalization approach and nanopatterning method of graphite and graphene ...
A convenient covalent functionalization approach and nanopatterning method of graphite and graphene ...