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CVD-Grown Monolayer Graphene-Based Geometric Diode for THz Rectennas

Heng Wang, Gaurav Jayaswal, Geetanjali Deokar, John Stearns, Pedro M. F. J. Costa, Garret Moddel, Atif Shamim

2021Nanomaterials25 citationsDOIOpen Access PDF

Abstract

For THz rectennas, ultra-fast diodes are required. While the metal-insulator-metal (MIM) diode has been investigated in recent years, it suffers from large resistance and capacitance, as well as a low cut-off frequency. Alternatively, a geometric diode can be used, which is more suitable due to its planar structure. However, there is only one report of a THz geometric diode based on a monolayer graphene. It is based on exfoliated graphene, and thus, it is not suitable for mass production. In this work, we demonstrate chemical vapor deposition (CVD)-grown monolayer graphene based geometric diodes, which are mass-producible. The diode's performance has been studied experimentally by varying the neck widths from 250-50 nm, the latter being the smallest reported neck width for a graphene geometric diode. It was observed that by decreasing the neck widths, the diode parameters such as asymmetry, nonlinearity, zero-bias resistance, and responsivity increased within the range studied. For the 50 nm neck width diode, the asymmetry ratio was 1.40 for an applied voltage ranging from -2 V to 2 V, and the zero-bias responsivity was 0.0628 A/W. The performance of the diode was also verified through particle-in-cell Monte Carlo simulations, which showed that the simulated current-voltage characteristics were consistent with our experimental results.

Topics & Concepts

ResponsivityMaterials scienceDiodeGrapheneOptoelectronicsTerahertz radiationMonolayerCapacitanceBiasingVoltageNanotechnologyPhotodetectorPhysicsElectrodeQuantum mechanicsGraphene research and applicationsSuperconducting and THz Device TechnologyTopological Materials and Phenomena