New short-lived resonance states of NO22- have been studied by bombarding NO2- anions by low-energy, mono-energetic electrons at the ASTRID heavy-ion storage ring. Storage for several seconds before the measurement ensures full vibrational relaxation of NO2- target anions. The dianion resonances were identified by the detection of resonances in the cross section for formation of neutral NO2. Two resonances were observed: The one of lowest energy is assigned to be the ground state of NO22- based on an ab initio calculation. This state may be held by a Coulomb barrier alone. A second state of significantly higher energy is argued to be held by a combined Coulomb and centrifugal barrier. Finally, a new scheme in which electron recombination may create stable dianions is proposed.