0000000000482929
AUTHOR
Giovanni D'arrigo
A mid-IR Plasmonic Graphene Nanorectenna-based Energy Harvester to Power IoT Sensors
In this paper, the design of a graphene arrow- bowtie nanoantenna mid-IR energy-harvester to power IOT wireless sensor is presented. For the first time, a sensitivity analysis of the mid-IR nanoantenna resonant frequencies in terms of different graphene number of sheets and chemical potential (μCP) without substrate and on a two-layer substrate composed of SiO2 and Si, is carried out. The obtained simulation results by 3D CST 2020 are useful to design an efficient infrared nanorectenna, composed of the nanoantenna and a rectifying MIM diode inside the gap. The analysis of the complete energy-harvester (EH), composed of an NxM nanorectenna array, a low-pass filter, and a DC-DC converter, is …
A 28.3 THz Plasmonic Graphene Arrow-bowtie Nanoantenna for Energy Harvesting
In this paper, the design of a 28.3 aor1 THz graphene arrow bowtie nanoantenna for IR energy harvesting applications astr is presented. A sensitivity analysis of the resonance frequency in terms of geometric parameters acty number of graphene sheets acny doping, and thickness of the substrate is reported. The simulations are carried out using the CST 2020 3D simulator.