In this study, we took the Ga-Si-B-Ca-Sr system as a reference to understand the sealing materials for solid oxide fuel cell (SOFC). By changing the compositions ratios of Al/Si, La/Si, B/Si, and Ga/Si, different glass samples were synthesized. The effects of composition on the property of the sealing materials were discussed. It was found that nitrate precursors in aqueous solution were easier to make raw materials that created eutectic form and homogeneous reaction in high temperature region. In the Al series, Al2O3 as a network modifier, make the glass transition temperature (Tg), the melting temperature (Tm), the starting point of crystallization temperature (Tx), the crystallization temperature (Tc) and the softening point (Ts) decrease, the coefficient of thermal expansion (CTE) increase. The La series exhibited low thermal vibration, high coordination number, and large radius but weak bonding energy, which increased Tg, Tm and CTE and reduced Tx, Tc and Ts. For B series, the boron element makes structure unstable and cause “Borate Volatility”, which reduced Tg, Tm and Ts, whereas Tx, Tc and CTE were increased. In the Ga series, the, Tg, Tm, Tx, Tc and Ts were increased and CTE increased, which may due to their low thermal vibration, large Ga/Si ratio ( > 1), and weak Ga-O bonding energy. All products in this study exhibit good adhesion with LSGM film at 850oC, but it was found that La and Si may diffuse across the glass-SOFC interface. The effect of La and Si diffusion remains uncertain and will be further studied. In this study, YP052 (12Ga-10Si-2K-2Ca-4Sr-6B-2La-4Al) most reached our goal. It does not crystallize after a long time at the operating temperature and adhere with LSGM well. If we reduce the pre-sintering temperature, YP052 is expected to have less crystallization and better sealing ability. The leak rate could be measured and discussed after the leakage test system established.