In this study, a new type of flexible electrode was successfully fabricated by coating on chromatography paper with calligraphic black ink; the black ink-coated paper was then used as the electrodes of a flexible supercapacitor. First, chromatography paper is soaked in calligraphy black ink and then dried to fabricate black ink-coated paper. Following which the black ink-coated paper was screen-printed with reduced graphene oxide-polyaniline-chitosan slurry. Finally, the gel-electrolyte was coated on the electrodes and assembled into a symmetrical supercapacitor. Calligraphy black ink-coated paper has the advantages of flexibility, low cost, simple manufacturing process, and unrestricted manufacturing environment. calligraphy black ink-coated paper was characterized by the field emission scanning electron microscope , probe-type surface analyzer, water contact angle goniometer, 4-point probe sheet resistivity measurement device, X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS). Calligraphy black ink forms a uniform coating on the surface of calligraphy black ink-coated paper. The coating has good conductivity and exhibits excellent conductivity retention in 1000 cycles of bending tests. Calligraphy black ink-coated paper has good hydrophilicity, which is beneficial to the subsequent coating of composite materials. In constant current charge-discharge(GCD), current of 0.5 mA, the supercapacitor with calligraphy black ink-coated paper exhibited an areal specific capacitance of up to 179.08 mF/cm² and coulomb efficiency of 80%.