Add to ORKGABSTRACT: Graphene is promising as a transparent, flexible, and possibly cost-effective substrate for nanowire-based devices. We have investigated Au-seeded III−V nanowire growth with graphite as a model substrate. The highest yield of undoped vertical nanowires was found for InAs, but we also observed vertical nanowires for the InP, GaP, and GaAs materials. The yield of vertical nanowires for GaP and GaAs was strongly improved by supplying the p-dopant DEZn before nanowire growth but not by supplying H2S or HCl. In-plane GaAs and GaP nanowire growth exhibited an unexpected behavior, where the seed particles seemingly reflected on the side facets of other nanowires. These results pave the way for vertical and in-plane hybrid graphene- nanow...
We have investigated the growth of GaAs nanowires as a function of temperatures and source pressures...
The integration of III–V semiconductors with Si in device fabrication is facilitated by the use of n...
GaAs and InP based nanowires were grown epitaxially on GaAs or InP (111)B substrates by metalorganic...
Graphene is promising as a transparent, flexible, and possibly cost-effective substrate for nanowire...
By utilizing the reduced contact area of nanowires, we show that epitaxial growth of a broad range o...
We study the formation of GaAs nanowire - graphite nanoplatelet hybrid nanostructures. The quasi van...
Although ultrathin Au nanowires (similar to 2 nm diameter) are expected to demonstrate several inter...
Although ultrathin Au nanowires (∼2 nm diameter) are expected to demonstrate several interesting pro...
Although ultrathin Au nanowires (∼2 nm diameter) are expected to demonstrate several interesting pro...
Semiconductor nanowire arrays integrated vertically on graphene films offer significant advantages f...
The growth of epitaxial Ge nanowires is investigated on (100), (111) B and (110) GaAs substrates in ...
The integration of III-V semiconductors with Si in device fabrication is facilitated by the use of n...
In order to utilise the intriguing properties discovered in nanomaterials during the last decades, s...
In order to fully exploit the enormous potential of functional monolithic nanowire/graphene hybrid s...
We report the self-catalysed growth of InAs nanowires (NWs) on graphite thin films using molecular b...
We have investigated the growth of GaAs nanowires as a function of temperatures and source pressures...
The integration of III–V semiconductors with Si in device fabrication is facilitated by the use of n...
GaAs and InP based nanowires were grown epitaxially on GaAs or InP (111)B substrates by metalorganic...
Graphene is promising as a transparent, flexible, and possibly cost-effective substrate for nanowire...
By utilizing the reduced contact area of nanowires, we show that epitaxial growth of a broad range o...
We study the formation of GaAs nanowire - graphite nanoplatelet hybrid nanostructures. The quasi van...
Although ultrathin Au nanowires (similar to 2 nm diameter) are expected to demonstrate several inter...
Although ultrathin Au nanowires (∼2 nm diameter) are expected to demonstrate several interesting pro...
Although ultrathin Au nanowires (∼2 nm diameter) are expected to demonstrate several interesting pro...
Semiconductor nanowire arrays integrated vertically on graphene films offer significant advantages f...
The growth of epitaxial Ge nanowires is investigated on (100), (111) B and (110) GaAs substrates in ...
The integration of III-V semiconductors with Si in device fabrication is facilitated by the use of n...
In order to utilise the intriguing properties discovered in nanomaterials during the last decades, s...
In order to fully exploit the enormous potential of functional monolithic nanowire/graphene hybrid s...
We report the self-catalysed growth of InAs nanowires (NWs) on graphite thin films using molecular b...
We have investigated the growth of GaAs nanowires as a function of temperatures and source pressures...
The integration of III–V semiconductors with Si in device fabrication is facilitated by the use of n...
GaAs and InP based nanowires were grown epitaxially on GaAs or InP (111)B substrates by metalorganic...