New polyimide ionomers derived from 4,4^′-diamino-[1,1^′-biphenyl]-2,2^′-disulfonic acid for fuel cell applications

Abstract: The set of important properties of polymers necessary for their use as fuel cell membranes, such as film-forming properties, stability in acidic aqueous media, thermal stability, proton conductivity, is determined by their chemical structure, which provides not only basic and fragmentary mobility of the polymer chain but also complex supramolecular structural features (in particular, phase separation). The effect of the chemical structure of aromatic polyimide sulfonic acids, containing a fragment of 4,4′-diam… Show more

“…Agarwal et al [ 25 ] noted that the introduction of radical scavenger additives, such as cerium, is a promising solution to the problem of membrane destruction. One of the directions for membrane stabilization is the creation of membranes based on more stable ionomers [ 26 , 27 , 28 ]. Kononova et al [ 27 ] showed the prospects of polyimidesulfonic acid BDSA-SPI-4 (H) as a proton-conducting membrane polymer for electrochemical devices with direct energy conversion; a maximum electrical power of ~170 mW/cm 2 was reported in fuel cell mode in an oxygen/hydrogen system at room temperature and atmospheric pressure.…”

Stability of Graphene/Nafion Composite in PEM FC Electrodes

“…Agarwal et al [ 25 ] noted that the introduction of radical scavenger additives, such as cerium, is a promising solution to the problem of membrane destruction. One of the directions for membrane stabilization is the creation of membranes based on more stable ionomers [ 26 , 27 , 28 ]. Kononova et al [ 27 ] showed the prospects of polyimidesulfonic acid BDSA-SPI-4 (H) as a proton-conducting membrane polymer for electrochemical devices with direct energy conversion; a maximum electrical power of ~170 mW/cm 2 was reported in fuel cell mode in an oxygen/hydrogen system at room temperature and atmospheric pressure.…”

Stability of Graphene/Nafion Composite in PEM FC Electrodes