▎ 摘　　要

NOVELTY - The method involves forming a graphene structure (24) electrically coupled with a bottom electrode (16) and laterally spaced from first electrically conductive structure, then forming a second electrically conductive structure over bottom electrode and on opposing side of graphene structure. A top electrode (18) is formed over graphene structure. The bottom electrode is electrically coupled with one of the electrically conductive structures while top electrode is electrically coupled with the other. The electrically conductive structures impart an electric field (EF) across graphene structure. USE - Forming method of switch. ADVANTAGE - The electric field component along predetermined axis is useful to assist in moving electrons from top to bottom electrode or vice versa, in on state of the switch. Increases bandgap within the graphene by increasing the electric field between the nodes. Enables manipulation of the magnitude of the electric field transverse to current flow within the graphene structure, which allows control the state of the switch. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a forming method of switches. DESCRIPTION OF DRAWING(S) - The drawing shows a cross-sectional side view of the switch. Bottom electrode (16) Top electrode (18) Electrically conductive material (20,30) Graphene structure (24) Nodes (26,28) Electric field (EF)