The era of two-dimensional materials has begun with graphene. It is the first artificially-isolated single-atom-thick material, which is also an exceptional example of its kind. With its extraordinary physical and chemical properties, it has become hugely popular among scientists and technologists isn a timeframe of less than a decade. When first isolated, graphene has been a subject of fundamental research by condensed matter physicists. Later, the possibility to exploit graphene's applicability have brought research toward methods for large scale production. One leading technique to obtain graphene is by its synthesis on sacrificial substrates by Chemical Vapor Deposition (CVD). Thus, a great deal of interest in research and development o...
Graphene is the first single-atom-thick two-dimensional material and exhibits a large set of interes...
The method of using CVD or Chemical Vapor Deposition [1-2] in the formation of graphene synthesis ha...
During the past 40 years, the fields of micro-electronic, energy and communication devices have exp...
The era of two-dimensional materials has begun with graphene. It is the first artificially-isolated ...
Over the past decade, graphene has advanced rapidly as one of the most promising materials changing ...
Graphene is a thin atomic layer of carbon atoms which has a hexagonal lattice structure. Due to its ...
Graphene is a two dimensional monolayer composed of carbon atoms tightly packed into a hexagonal lat...
Graphene is a two-dimensional material composed of carbon atoms tightly packed into a hexagonal latt...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...
Graphene, a two-dimensional sp2-bonded carbon material, has attracted enormous attention due to its ...
The outstanding electrical, mechanical and chemical properties of graphene make it attractive for a ...
High-quality, large-area, single-layer graphene was directly grown on top of a quartz substrate by a...
The beginning of this project coincided with growing MoS2 but focuses on the graphene synthesis by C...
Graphene is an allotrope of carbon in the form of a plane of sp2-bonded atoms with a molecular bond ...
For more than half a century silicon-based CMOS transistors have been scaled continuously to fulfill...
Graphene is the first single-atom-thick two-dimensional material and exhibits a large set of interes...
The method of using CVD or Chemical Vapor Deposition [1-2] in the formation of graphene synthesis ha...
During the past 40 years, the fields of micro-electronic, energy and communication devices have exp...
The era of two-dimensional materials has begun with graphene. It is the first artificially-isolated ...
Over the past decade, graphene has advanced rapidly as one of the most promising materials changing ...
Graphene is a thin atomic layer of carbon atoms which has a hexagonal lattice structure. Due to its ...
Graphene is a two dimensional monolayer composed of carbon atoms tightly packed into a hexagonal lat...
Graphene is a two-dimensional material composed of carbon atoms tightly packed into a hexagonal latt...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...
Graphene, a two-dimensional sp2-bonded carbon material, has attracted enormous attention due to its ...
The outstanding electrical, mechanical and chemical properties of graphene make it attractive for a ...
High-quality, large-area, single-layer graphene was directly grown on top of a quartz substrate by a...
The beginning of this project coincided with growing MoS2 but focuses on the graphene synthesis by C...
Graphene is an allotrope of carbon in the form of a plane of sp2-bonded atoms with a molecular bond ...
For more than half a century silicon-based CMOS transistors have been scaled continuously to fulfill...
Graphene is the first single-atom-thick two-dimensional material and exhibits a large set of interes...
The method of using CVD or Chemical Vapor Deposition [1-2] in the formation of graphene synthesis ha...
During the past 40 years, the fields of micro-electronic, energy and communication devices have exp...