All-Graphene Nano-Ribbon FET Based Complete FPGA Design

Abstract: FPGA is among the most successful digital IC. Though initially targeted for prototyping, but received more attention even in small volume production. However, that success is under threat since Silicon is reaching physical limitations. According to ITRS, towards the sub-nanometer regime, various second-order effects affect the functionality and reduces the performance of the device. Research on alternative materials indicates that Graphene is the most attractive candidate, and field-effect transistors using Gr… Show more

“…In the last decade, research on the development of graphene-based electrode materials has been more in the focus due to their exceptional electrical and chemical properties along with a layered 2D structure, which reduces the electrode thickness, resulting in a larger potential window and greater flexibility. 14,15 In addition, the morphology of electrode material is the other key factor that improves the performance of energy storage devices. 16 The porous morphology of electrodes has pulled significant attention in the context of electrochemical energy storage devices because of more accessible surface area for redox reactions, and easy charge transfer progress for electrochemical reactions.…”

Electrochemical Performance of rGO@ZnCo₂O₄Microspheres: Rationally Designed Asymmetric Constructed Wide-Potential Energy Storage Device

“…In the last decade, research on the development of graphene-based electrode materials has been more in the focus due to their exceptional electrical and chemical properties along with a layered 2D structure, which reduces the electrode thickness, resulting in a larger potential window and greater flexibility. 14,15 In addition, the morphology of electrode material is the other key factor that improves the performance of energy storage devices. 16 The porous morphology of electrodes has pulled significant attention in the context of electrochemical energy storage devices because of more accessible surface area for redox reactions, and easy charge transfer progress for electrochemical reactions.…”

Electrochemical Performance of rGO@ZnCo₂O₄Microspheres: Rationally Designed Asymmetric Constructed Wide-Potential Energy Storage Device

Wafer-level controllable graphene transfer and electrical characterization