2 V lead-acid cell employing RVC galvanized with Pb as the grid material has been designed and tested. Two thick (>0.5 cm) plates have been used for assembling prototype flooded cell. It completed over 65 charge/discharge cycles at 50% depth of discharge without losing its nominal capacity. For higher discharge currents at 100% DOD the cyclic lifetime is limited as a result of grid corrosion which is probably due to relatively thin, non-alloyed pure lead grid coating. However, very promising capacity values for 20-h discharge rate at the level of 120 A h kg(-1) PAM, 170 A h kg(-1) NAM have been obtained, the high current response is still below the expectations. Average internal resistance of the new cells is 45 m Omega, which is in parallel with limited high-current response. Perspective of designing serial lead acid cell employing lightweight reticulated carbon as a grid material is clearly visible. There is a need of introducing high-quality, corrosion resistant Pb-alloy for RVC coating and lowering the plates thickness for better high current performance. (C) 2011 Elsevier BM. All rights reserved.