AbstractHybrid metal‐ion capacitors, merging the merits of batteries and supercapacitors, are considered as a promising energy storage technology able to satisfy the rising energy requirements of modern powered devices. Regrettably, their development is currently hampered by the diffusion‐controlled storage mechanism taking place at the battery‐type, negative electrode material. Herein we highlight and review the promising role of carbon nanospheres ‐that combine a dense morphology with short solid‐state diffusion pathways‐ in minimizing the kinetic restrictions in the battery‐type electrode. Besides, carbon nanospheres presenting a highly developed pore structure and readily available micropores fully satisfy the requirements for the supercapacitor‐type electrode. The recent findings collected in this concept paper support the suitability of carbon nanospheres for the production of negative and positive electrode materials for these hybrid systems.