▎ 摘　　要

NOVELTY - The device has an electrolyte (30) for directly contacting both of a graphene layer (20) and a liquid metal layer (40). The electrolyte is made of sodium hydroxide. The liquid metal layer is made of eutectic alloy in stable liquid form over temperature range of between about 19 to 1300 degree Celsius, where the eutectic alloy is selected as gallium-based alloy, and the gallium-based alloy is selected as gallium, indium, and tin. The graphene layer is made of monolayer graphene and multilayer graphene. A first electrical contact is in contact with the graphene layer. A second electrical contact is in contact with the liquid metal layer. A load unit (50) is connected to the first electrical contact and the second electrical contact. The graphene layer, the liquid metal layer, and the electrolyte are fixed on a substrate and covered by an enclosure fixed on the substrate. USE - Reconfigurable liquid metal and graphene power source device. ADVANTAGE - The device reduces circuitry complexity problem, so that power sources are needed that possess high physical stability to provide a quick ion transport medium with robust and stress, thus efficiently distributing power amongst multi-loads. The device even provides separate voltages for each load based on electrochemical reaction, so that contact resistance at a graphene-electrode interface is minimized when shape, size, and location of the electrical contacts are limited to maximize energy which can be drawn out of the power source and to a load device. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are also included for the following: (1) a reconfigurable liquid metal and graphene power source system (2) a reconfigurable liquid metal and graphene power source method. DESCRIPTION OF DRAWING(S) - The drawing shows a circuit diagram of a reconfigurable liquid metal and graphene power source device. Power source (10) Graphene layer (20) Electrolyte (30) Liquid metal layer (40) Load unit (50)