Electrolysis cell comprises, in one embodiment, a proton exchange membrane
(PEM), an anode positioned along one face of the PEM, and a cathode
positioned along the other face of the PEM. A multi-layer metal screen
for defining a first fluid cavity is placed in contact with the outer
face of the anode, and an electrically-conductive, compressible,
spring-like, porous pad for defining a second fluid cavity is placed in
contact with the outer face of the cathode. The porous pad comprises a
mat of carbon fibers bound together with one or more, preferably
thermoplastic, resins, the mat having a density of about 0.2-1.5
g/cm.sup.3. Cell frames are placed in peripheral contact with the metal
screen and the compression pad for peripherally containing fluids present
therewithin. Electrically-conductive separators are placed in contact
with the metal screen and the compression pad for axially containing
fluids present therewithin. A plurality of the cells may be arranged in
series in a bipolar configuration without requiring a separate
compression pad between cells (for gas pressure differentials up to about
400 psi or greater). The invention is also directed to a fuel cell
wherein the pad replaces the carbon fiber paper or carbon fiber cloth in
contact with the cathode or anode.