Abstract: Provided is a fabrication method for a composite planar pH sensor modified by graphene film including: slotting into substrate, setting copper foil on both sides, and setting leads on the copper foil; coating graphene film on the copper foils using micro mechanical stripping method to form the first graphene film and the second graphene film; depositing Sb layer and Sb2O3 layer successively on the first graphene film by magnetron sputtering method, and coating Nafion™ perfluorinated sulfonic acid membrane on the Sb2O3 layer by spin-coating method to fabricate pH working electrode; depositing Ag layer on the second graphene film and dipping in FeCl3 solution to form AgCl layer; coating the third graphene film on the AgCl layer to fabricate reference electrode. The composite planar pH sensor modified by graphene film may be used in pH measurement for solid, semisolid, mash and solution samples.

Abstract: A micro-nano textured graphene-based bionic pH sensor and a preparation method therefor. The micro-nano textured graphene-based bionic pH sensor comprises a substrate (1), a working electrode (4), a reference electrode (5), a copper contact A (6), a copper contact B (7), an inner lead A (8), and an inner lead B (9). A groove A (2) and a groove B (3) are formed in the substrate (1). The working electrode (4) is located in the groove A (2), and the reference electrode (5) is located in the groove B (3). The bottom of the working electrode (4) is connected to the inner lead A (8) by means of the copper contact A (6). The top of the reference electrode (5) is connected to the inner lead B (9) by means of the copper contact B (7). The working electrode (4) comprises a graphene group A (401) and a sensitive electrode material layer (402). The sensitive electrode material layer (402) is located on the upper layer of the graphene group A (401).

Abstract: A micro-nano textured graphene-based bionic pH sensor and a preparation method therefor. The micro-nano textured graphene-based bionic pH sensor comprises a substrate (1), a working electrode (4), a reference electrode (5), a copper contact A (6), a copper contact B (7), an inner lead A (8), and an inner lead B (9). A groove A (2) and a groove B (3) are formed in the substrate (1). The working electrode (4) is located in the groove A (2), and the reference electrode (5) is located in the groove B (3). The bottom of the working electrode (4) is connected to the inner lead A (8) by means of the copper contact A (6). The top of the reference electrode (5) is connected to the inner lead B (9) by means of the copper contact B (7). The working electrode (4) comprises a graphene group A (401) and a sensitive electrode material layer (402). The sensitive electrode material layer (402) is located on the upper layer of the graphene group A (401).

Abstract: Provided is a fabrication method for a composite planar pH sensor modified by graphene film. The fabrication method includes the steps of: slotting into substrate, setting copper foil on both sides, and setting leads on the copper foil; coating graphene film on the copper foils using micro mechanical stripping method to form the first graphene film and the second graphene film; depositing Sb layer and Sb2O3 layer successively on the first graphene film by magnetron sputtering method, and coating Nafion membrane on the Sb2O3 layer by spin-coating method to fabricate pH working electrode; depositing Ag layer on the second graphene film and dipping in FeCl3 solution to form AgCl layer; coating the third graphene film on the AgCl layer to fabricate reference electrode.