▎ 摘 要
NOVELTY - The composite structure (100) comprises graphene sheets (120) disposed at a regular interval, and a nanostructure (110) that is oriented through the graphene sheets and has a one-dimensional shape. The nanostructure and the graphene sheet optionally have a common cross-section. The nanostructure: is a nanowire, a nanotube or a nanorod; is doped with a material that alters an electrical property of the nanostructure; and comprises a heterostructure in a radial direction or a longitudinal direction, a group IV semiconductor, a group III-V semiconductor, and a group II-VI semiconductor. USE - The composite structure is useful for manufacturing a logic device, a memory device, a supercapacitor, a flexible and stretchable device, a sensor, an optical device, an energy device, and a transparent display device. ADVANTAGE - The composite structure has high flexibility, improved electrical and thermal conductivity, enhanced strength and excellent elastic characteristics. DETAILED DESCRIPTION - The composite structure (100) comprises graphene sheets (120) disposed at a regular interval, and a nanostructure (110) that is oriented through the graphene sheets and has a one-dimensional shape. The nanostructure and the graphene sheet optionally have a common cross-section. The nanostructure: is a nanowire, a nanotube or a nanorod; is doped with a material that alters an electrical property of the nanostructure; and comprises a heterostructure in a radial direction or a longitudinal direction, a group IV semiconductor, a group III-V semiconductor, a group II-VI semiconductor, a group IV-IV semiconductor, a group IV-V-VI semiconductor, an oxide semiconductor, a nitride semiconductor and/or a metal. An INDEPENDENT CLAIM is included for a method of manufacturing a composite structure. DESCRIPTION OF DRAWING(S) - The diagram shows a perspective view of a composite structure. Composite structure (100) Nanostructure (110) Graphene sheet. (120)