▎ 摘　　要

NOVELTY - The method involves providing a carbon-insoluble support substrate, and forming a carbon-soluble layer on the substrate. A carbon source is applied to the carbon-soluble layer to form a set of graphene layers (23) on the carbon-soluble layer, where thickness of the graphene layers is controlled by the carbon-soluble layer. A transparent substrate (24) is provided with an adhesive surface. The adhesive surface is applied to the graphene layers such that the transparent substrate is adhered to the layers. USE - Method for fabricating a transparent electrode in a transparent electrode device of an electronic device such as LED, LCD, organic LED (OLED), thin film transistor (TFT), solar cell, integrated circuit, radio frequency identification devices (RFID) circuit, sensor, and micro electro mechanical system (MEMS) (all claimed). ADVANTAGE - The method enables fabricating a transparent electrode with high electrical conductivity and high transparency of 80 percentage. The method applies an external magnetic field to the carbon-soluble layer during graphene formation to enable the graphene to be well aligned to increase the electrical current speed in a specific direction, thus achieving desired crystal lattice orientation, increased crystal quality, and uniform crystal lattice orientations. The carbon-containing gas can be discretely provided so as to control growing speed of the graphene layers. DETAILED DESCRIPTION - The carbon source is a carbon-containing gas or graphite, methane and acetylene. The transparent substrate includes a glass substrate or a polyethylene terephtalate (PET) substrate. INDEPENDENT CLAIMS are also included for the following: (1) a transparent electrode device (2) an electronic device. DESCRIPTION OF DRAWING(S) - The drawing shows a cross-sectional view of a transparent electrode. Graphene layers (23) Transparent substrate (24) Adhesive layer (25)