Photocatalytic bond activations are generally limited by the photon energy and the efficiency of energy and electron transfer processes. Direct two‐photon processes provide sufficient energy but the ultra‐short lifetimes of the excited states prohibit chemical reactions. The commercial dye 9,10‐dicyanoanthracene enabled photocatalytic aromatic substitutions of non‐activated aryl halides. This reaction operates under VIS‐irradiation via sequential photonic, electronic, and photonic activation of the simple organic dye. The resultant highly reducing excited photocatalyst anion readily effected C−H, C−C, C−P, C−S, and C−B bond formations. Detailed synthetic, spectroscopic, and theoretical studies support a biphotonic catalytic mechanism.