▎ 摘　　要

NOVELTY - The membrane has a graphene magnetic nanoparticle composite membrane structure, where a magnetite (FeeC) acting as magnetic nanoparticles provides sound transmission in nature similar to the membrane structure and a graphene/polymethylmethacrylate polymer nanocomposite membrane reinforced by the magnetite nanoparticles having the membrane nature. The graphene/magnetic nanoparticle/graphene composite structured device is produced by lithography method. The measurement is taken from the obtained graphene, magnetic and/or graphene composite structure and an implant is formed by convenient microprocessors. USE - Artificial ear membrane i.e. artificial tympana, for use in an micro-electronic systems for artificial ear design for providing hearing functions for patients having hearing disability i.e. full and partial hearing loss, for sound transmission applications. Can also be used for biological applications and biomedical applications i.e. hyperthermia for cancer treatment. ADVANTAGE - The artificial ear working as the membrane eliminates hearing loss of individuals having damages arising from all stages from ear membrane to hearing nerves. The membrane provides hearing functions and can be integrated to micro-electronic systems for artificial ear design developed for patients having hearing disability. The membrane prevents bio-compatibility problems that can occur in body due to device by using PMMA and graphene which are biocompatible materials instead of chemical binding. The membrane provides reduction in costs commercially. The membrane realizes immobilization of nano-particulates onto graphene surface without use of chemicals. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a manufacture method for artificial ear membrane. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of a graphene/magnetic nanocomposite membrane structured device.