Highly flat and highly homogeneous carbon paper with ultra-thin thickness for high-performance proton exchange membrane fuel cell (PEMFC)

Gas diffusion layer is one of the most important components of fuel cell, which supports the catalytic layer, collects the current and facilitates mass transfer. However, current carbon paper is mainly composed of long carbon fibers (CF), which brings drawbacks including rough surface, poor body homogeneity, excessive thickness, and preparation difficulty, etc. In this research, we invent a combination method to produce a highly flat, highly homogeneous, ultra-thin and high-performance carbon paper for proton exchange membrane fuel cell (PEMFC). The method combines the advantages of two materials, i.e. few-walled carbon nanotube (FWCNT) with high flatness and short CF with high porosity. And the combination method only contains three steps, material dispersion, carbon paper formation and heat treatment. The highest temperature for the heat treatment process is only 350 degrees C, which is much lower than the traditional 2000 degrees C. Due to the small size and fine distribution of FWCNT and CF, the new carbon paper exhibits highly flat (<6.4 mu m in average), highly homogeneous (<3.6 mu m in average), ultra-thin (<60 mu m) properties, and high-performance in PEMFC. Therefore, this work shows that the optimized combination of several materials with outstanding properties could be used to prepare high performance carbon paper for PEMFC.