Add to ORKGGraphene has attracted immense investigation since its discovery. Lattice imperfections are introduced into graphene unavoidably during graphene growth or processing. These structural defects are known to significantly affect electronic and chemical properties of graphene. A comprehensive understanding of graphene defect is thus of critical importance. Here we review the major progresses made in defectrelated engineering of graphene. Firstly, we give a brief introduction on the types of defects in graphene. Secondly, the generation and healing of the graphene defects are summarized. Then, the effects of defects on the chemical, electronic, magnetic, and mechanical properties of graphene are discussed. Finally, we address the associated chal...
nderstanding the structure and behavior of point defects is vital to exploiting the potential of gra...
In this study, the mechanical and thermal properties of graphene were systematically investigated us...
As with every material, the presence of a crystallographic defect influences the material properties...
I deal graphene is a one-atom-thicklayer of carbon atoms that are perfectlyarranged in a two-dimensi...
Monolayer graphene exhibits extraordinary properties owing to the unique, regular arrangement of ato...
Low-dimensional materials such as graphene exhibit superior electrical, mechanical and thermal prope...
t is the second law of thermodynamics that dictates the presence of a certain amount of disorder in ...
With a hexagonal monolayer network of carbon atoms, graphene has demonstrated exceptional electrical...
Atomic-scale defects such as carbon atom vacancies and neutral impurities such as adatoms play an im...
International audienceA broad variety of defects has been observed in two-dimensional materials. Man...
Graphene-like materials could be used in the fabrication of electronic and optoelectronic devices, g...
he exceptional electronic, magnetic, and mechanical properties of graph-ene can be modulated by intr...
The super-high strength of single-layer graphene has attracted great interest. In practice, defects ...
AbstractGraphene is the strongest material but its performance is significantly weakened by vacancy ...
Graphene's intrinsically corrugated and wrinkled topology fundamentally influences its electronic, m...
nderstanding the structure and behavior of point defects is vital to exploiting the potential of gra...
In this study, the mechanical and thermal properties of graphene were systematically investigated us...
As with every material, the presence of a crystallographic defect influences the material properties...
I deal graphene is a one-atom-thicklayer of carbon atoms that are perfectlyarranged in a two-dimensi...
Monolayer graphene exhibits extraordinary properties owing to the unique, regular arrangement of ato...
Low-dimensional materials such as graphene exhibit superior electrical, mechanical and thermal prope...
t is the second law of thermodynamics that dictates the presence of a certain amount of disorder in ...
With a hexagonal monolayer network of carbon atoms, graphene has demonstrated exceptional electrical...
Atomic-scale defects such as carbon atom vacancies and neutral impurities such as adatoms play an im...
International audienceA broad variety of defects has been observed in two-dimensional materials. Man...
Graphene-like materials could be used in the fabrication of electronic and optoelectronic devices, g...
he exceptional electronic, magnetic, and mechanical properties of graph-ene can be modulated by intr...
The super-high strength of single-layer graphene has attracted great interest. In practice, defects ...
AbstractGraphene is the strongest material but its performance is significantly weakened by vacancy ...
Graphene's intrinsically corrugated and wrinkled topology fundamentally influences its electronic, m...
nderstanding the structure and behavior of point defects is vital to exploiting the potential of gra...
In this study, the mechanical and thermal properties of graphene were systematically investigated us...
As with every material, the presence of a crystallographic defect influences the material properties...