This paper reports the development and characterization of sulfonated polysulfone (SPSf) polymer electrolytes for direct methanol fuel cells. The synthesis of sulfonated polysulfone was performed by a post sulfonation method using trimethyl silyl chlorosulfonate as a mild sulfonating agent. Bare polysulfone membranes were prepared with two different sulfonation levels (60%, SPSf-60 and 70%, SPSf-70), whereas, a composite membrane of SPSf-60 was prepared with 5 wt% silica filler. These membranes were investigated in direct methanol fuel cells (DMFCs) operating at low (30-40 oC) and high temperatures (100-120 oC). DMFC power densities were about 140mWcm-2 at 100 oC with the bare SPSf-60 membrane and 180mWcm-2 at 120 oCwith the SPSf-60-SiO2 composite membrane. The best performance achieved at ambient temperature using a membrane with high degree of sulfonation (70%, SPSf-70) was 20mWcm-2 at atmospheric pressure. This makes the polysulfone-based DMFC suitable for application in portable devices.
Polymer electrolytes based on sulfonated polysulfone for direct methanol fuel cells
Lufrano F;Baglio V;Staiti P;Antonucci V
2008
Abstract
This paper reports the development and characterization of sulfonated polysulfone (SPSf) polymer electrolytes for direct methanol fuel cells. The synthesis of sulfonated polysulfone was performed by a post sulfonation method using trimethyl silyl chlorosulfonate as a mild sulfonating agent. Bare polysulfone membranes were prepared with two different sulfonation levels (60%, SPSf-60 and 70%, SPSf-70), whereas, a composite membrane of SPSf-60 was prepared with 5 wt% silica filler. These membranes were investigated in direct methanol fuel cells (DMFCs) operating at low (30-40 oC) and high temperatures (100-120 oC). DMFC power densities were about 140mWcm-2 at 100 oC with the bare SPSf-60 membrane and 180mWcm-2 at 120 oCwith the SPSf-60-SiO2 composite membrane. The best performance achieved at ambient temperature using a membrane with high degree of sulfonation (70%, SPSf-70) was 20mWcm-2 at atmospheric pressure. This makes the polysulfone-based DMFC suitable for application in portable devices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.