The interfacial reaction between sealing glasses and Cr-containing interconnect presents a challenge for the development of solid oxide fuel cell (SOFC). In this work, we report that the interfacial reaction between bismuth-containing sealing glasses and Cr-containing interconnect can be tailored by ZnO dopant. The addition of ZnO contributes to a more open glass structure, resulting in the facilitated diffusion of ions in glass and thus the increase in the interfacial reaction. On the other hand, the further increase in ZnO content enhances the Bi3+ -> Bi5+ transition in glasses and reduces the redox interfacial reaction by consuming the oxygen available at the glass/metal interface. In addition, good joining can be observed at the sealing interface between ZnO-containing glass-ceramics and Crofer 22 APU, held in air at 700 degrees C for 1400 h. Moreover, the glass-ceramics show considerable electrical stability in oxidizing and reducing atmospheres. The reported results support the suitability of prepared glass-ceramics as sealing materials for SOFC applications.