The main purpose of this thesis is to develop a modulized stack direct methanol fuel cell (DMFC) and to integrate stack DMFC with the balance of plant (BOP). The motivation of this study is to develop a portable stack DMFC that could supply the power not only to BOP, but also to external loadings. In the first part of this thesis, three types of DMFC flow channels, including the traditional serpentine flow channel; the smooth corner serpentine flow channel and the unilateral crooked serpentine flow channel were fabricated. Experimental investigations into the DMFC polarization curves with these three flow channel combinations were conducted in a single fuel cell. The best performance combination was then used to design a 4-cell stack DMFC. The second part of this thesis is to conduct the 4-cell stack DMFC performance tests under different confer pound of the lock, methanol flow rate and size of the stack fuel cell. Results show that the newly designed 4-cell stack DMFC could provide a promising application for portable electronics.