Add to ORKGhemical functionalization and doping of graphene have been of great inter-est as an approach to tailoring its electronic structure.13 Covalent functionali-zation changes the hybridization of carbon bonds from sp2 to sp3, leading to significant alteration of electronic properties of gra-phene. For example, graphene can be cova-lently functionalized with atomic hydrogen4,5 and the hydrogenation of graphene results in “graphane ” which exhibits insulating behav-ior in contrast to semimetallic graphene.5 Additionally, fluorination has been observed to lead to a wide band gap6,7 and para-magnetism8 in graphene. Chemical dopin
The binding of radical groups such as hydrogen, hydroxyl, epoxide, or fluorine to the graphene surfa...
In this thesis investigations into chemically modified graphene structures are presented. Chemical f...
We report a first-principles study on tuning the electronic band gap of graphyne, consisting of two-...
Graphene, a two dimensional single layer of graphite, attracts a lot of attention of researchers aro...
Graphene, a two dimensional monolayer carbon sheet with the atoms tightly packed in a hexagonal latt...
Chemical functionalisation is one of the most active areas of graphene research, motivated by fundam...
This thesis includes work done on graphene-based materials, examining their unique electronic proper...
We have employed first-principle calculations to study transformation of graphene’s electronic struc...
The ‘graphene rush’ that started almost a decade ago is far from over. The dazzling properties of gr...
Graphene is foreseen to be the basis of future electronics owing to its ultra thin structure, extrem...
Graphene holds great potential as an electronic material because of its excellent transport properti...
Although graphene is extremely inert in chemistry because of the giant delocalized pi electron syste...
I deal graphene is a one-atom-thicklayer of carbon atoms that are perfectlyarranged in a two-dimensi...
Graphene – a monolayer of carbon atoms densely packed into a hexagonal lattice (1) –has one of the s...
The utilization of grown or deposited graphene on solid substrates offers key benefits for functiona...
The binding of radical groups such as hydrogen, hydroxyl, epoxide, or fluorine to the graphene surfa...
In this thesis investigations into chemically modified graphene structures are presented. Chemical f...
We report a first-principles study on tuning the electronic band gap of graphyne, consisting of two-...
Graphene, a two dimensional single layer of graphite, attracts a lot of attention of researchers aro...
Graphene, a two dimensional monolayer carbon sheet with the atoms tightly packed in a hexagonal latt...
Chemical functionalisation is one of the most active areas of graphene research, motivated by fundam...
This thesis includes work done on graphene-based materials, examining their unique electronic proper...
We have employed first-principle calculations to study transformation of graphene’s electronic struc...
The ‘graphene rush’ that started almost a decade ago is far from over. The dazzling properties of gr...
Graphene is foreseen to be the basis of future electronics owing to its ultra thin structure, extrem...
Graphene holds great potential as an electronic material because of its excellent transport properti...
Although graphene is extremely inert in chemistry because of the giant delocalized pi electron syste...
I deal graphene is a one-atom-thicklayer of carbon atoms that are perfectlyarranged in a two-dimensi...
Graphene – a monolayer of carbon atoms densely packed into a hexagonal lattice (1) –has one of the s...
The utilization of grown or deposited graphene on solid substrates offers key benefits for functiona...
The binding of radical groups such as hydrogen, hydroxyl, epoxide, or fluorine to the graphene surfa...
In this thesis investigations into chemically modified graphene structures are presented. Chemical f...
We report a first-principles study on tuning the electronic band gap of graphyne, consisting of two-...