Add to ORKGWe propose a novel growth technique, in which graphene is synthesized on capped Cu thin films deposited on c-plane sapphire. The cap is another sapphire plate which is just laid upon the Cu thin film, in direct contact with it. Thanks to this 'contact cap', Cu evaporation can be suppressed at high temperature and the 400 nm-thick Cu films can be annealed above 1000 degrees C, resulting in (1 1 1)-oriented grains of millimeter size. Following this high temperature annealing, graphene is grown by chemical vapor deposition during the same pump-down operation, without removing the contact cap. The orientation and doping type of the as-grown graphene were first studied, using low energy electron diffraction, as well as high resolution angle-reso...
We show that aligned rectangular few layer graphene (FLG) domains can be produced on Cu surfaces usi...
We present a simple approach to improving the quality of CVD grown graphene, exploiting a Cu(111) fo...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...
Graphene, a two-dimensional material, can be grown on a metal substrate using chemical vapor deposit...
Herein we report a systematic study elucidating the role of H2 in wafer-scale graphene synthesis on ...
© 2022, The Author(s), under exclusive licence to Springer Nature Limited.The growth of inch-scale h...
Herein we report a systematic study elucidating the role of H<sub>2</sub> in wafer-scale graphene sy...
Chemical vapor deposition (CVD) is widely considered to be the most economically viable method to pr...
Thin metal films can be used to catalyze the growth of nanomaterials in place of the bulk metal, whi...
Over the past decade, graphene has advanced rapidly as one of the most promising materials changing ...
Single crystal metal films on insulating substrates are attractive for microelectronics and other ap...
Graphene has been attracting great interest because of its distinctive band structure and physical p...
Advances in synthesis are imperative if graphene is to fulfill its scientific and technological pote...
We present a simple approach to improving the quality of CVD grown graphene, exploiting a Cu(111) fo...
The chemical vapor deposition (CVD) of graphene on Cu has attracted much attention because of its in...
We show that aligned rectangular few layer graphene (FLG) domains can be produced on Cu surfaces usi...
We present a simple approach to improving the quality of CVD grown graphene, exploiting a Cu(111) fo...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...
Graphene, a two-dimensional material, can be grown on a metal substrate using chemical vapor deposit...
Herein we report a systematic study elucidating the role of H2 in wafer-scale graphene synthesis on ...
© 2022, The Author(s), under exclusive licence to Springer Nature Limited.The growth of inch-scale h...
Herein we report a systematic study elucidating the role of H<sub>2</sub> in wafer-scale graphene sy...
Chemical vapor deposition (CVD) is widely considered to be the most economically viable method to pr...
Thin metal films can be used to catalyze the growth of nanomaterials in place of the bulk metal, whi...
Over the past decade, graphene has advanced rapidly as one of the most promising materials changing ...
Single crystal metal films on insulating substrates are attractive for microelectronics and other ap...
Graphene has been attracting great interest because of its distinctive band structure and physical p...
Advances in synthesis are imperative if graphene is to fulfill its scientific and technological pote...
We present a simple approach to improving the quality of CVD grown graphene, exploiting a Cu(111) fo...
The chemical vapor deposition (CVD) of graphene on Cu has attracted much attention because of its in...
We show that aligned rectangular few layer graphene (FLG) domains can be produced on Cu surfaces usi...
We present a simple approach to improving the quality of CVD grown graphene, exploiting a Cu(111) fo...
Graphene has sparked a great deal of interest in the microelectronics field since the discovery of i...