▎ 摘　　要

NOVELTY - Method for enhancing molecular signal transmission capacity involves building a polygon graphene channel, and placing in a water solution, making the channel filled with water molecule; where the water molecule is affected by the interaction potential energy distribution of the water at the cross section of the channel and the inner wall of channel, the water molecules is fixed at each corner of the polygon-graphene channel and transmits the molecular signal along the axial direction of the passage, each folding angle forms a signal transmission channel correspondingly along the axis, performing surface charge modification to the polyon graphene channel and changing the water molecular dipole direction of all signal transmission channels, so as to enhance the intensity of molecular signal transmitted by each signal transmission passage. USE - Method for enhancing molecular signal transmission capacity. ADVANTAGE - The method uses the potential energy distribution difference of the water and the polygonal graphene channel, compared with the single-chain transmission channel of the circular carbon nano-tube, because of the constraint action of the angle, the radial molecular signal transportation interference effect is weakened, and the axial molecular signal transport is enhanced, and there are a set of signal transmission channel transport molecular signal, which greatly enhances the transmission capability of the molecular level signal. The water molecules tend to be distributed at the lower position of potential energy, so as to reduce the influence of water molecules at different positions in the same cross section, and enhance the transfer capability of molecular signal. DESCRIPTION OF DRAWING(S) - The drawing shows a flowchart illustrating the method for enhancing molecular signal transmission capacity.