The discovery of Graphene has created new applications for the next generation electronics due to its electrical characteristic. A compact patch antenna with graphene as conducting media has been designed for wearable, medical and consumer electronics application at 24 GHz. The patch has a dimension of 5 x 5 mm and is designed over 0.254 mm thick roger material. The antenna has been combined to make it an array form for increasing its gain while various antenna parameters have been obtained for its comparison with copper conductive patch. The ground patch is made of Perfect Electric Conductor (PEC) in both cases. Various parametric results show that graphene patch similar to copper patch provides a comparable return loss and VSWR although t...
Graphene was first isolated in 2004 and since numerous application concepts based on graphene have b...
Graphene was first isolated in 2004 and since numerous application concepts based on graphene have b...
As it has outstanding electrical and mechanical properties, like high conductivity, durability, and ...
The discovery of Graphene has created new applications for the next generation electronics due to it...
Graphene with its unique electrical, mechanical and physical properties provides a platform for nove...
Graphene with its unique electrical, mechanical and physical properties provides a platform for nove...
Previously, the antenna conductive patch was made of copper, which was costly, susceptible to multi-...
This paper presents a graphene-based antenna array for terahertz (THz) applications. The suggested a...
This paper presented the integration of conductive graphene sheet on flexible polydimethysiloxane (P...
A graphene based rectangular patch antenna is designed at .979 THz with a return loss of -20 & VSWR ...
Current research on tunable patch antennas for wireless applications has mostly focused on the dimen...
In this paper, two different types of graphene-based rectangular patch antennas are designed for bro...
The improvement of Terahertz (THz) antenna requires efficient (nano)materials to operate within the ...
Textile patch antennas of simple rectangular, triangular, and circular shape, for operation in the 2...
In this paper, two different types of graphene based rectangular patch antennas are designed for bro...
Graphene was first isolated in 2004 and since numerous application concepts based on graphene have b...
Graphene was first isolated in 2004 and since numerous application concepts based on graphene have b...
As it has outstanding electrical and mechanical properties, like high conductivity, durability, and ...
The discovery of Graphene has created new applications for the next generation electronics due to it...
Graphene with its unique electrical, mechanical and physical properties provides a platform for nove...
Graphene with its unique electrical, mechanical and physical properties provides a platform for nove...
Previously, the antenna conductive patch was made of copper, which was costly, susceptible to multi-...
This paper presents a graphene-based antenna array for terahertz (THz) applications. The suggested a...
This paper presented the integration of conductive graphene sheet on flexible polydimethysiloxane (P...
A graphene based rectangular patch antenna is designed at .979 THz with a return loss of -20 & VSWR ...
Current research on tunable patch antennas for wireless applications has mostly focused on the dimen...
In this paper, two different types of graphene-based rectangular patch antennas are designed for bro...
The improvement of Terahertz (THz) antenna requires efficient (nano)materials to operate within the ...
Textile patch antennas of simple rectangular, triangular, and circular shape, for operation in the 2...
In this paper, two different types of graphene based rectangular patch antennas are designed for bro...
Graphene was first isolated in 2004 and since numerous application concepts based on graphene have b...
Graphene was first isolated in 2004 and since numerous application concepts based on graphene have b...
As it has outstanding electrical and mechanical properties, like high conductivity, durability, and ...