One problem with recharging electric vehicles is finding a charging station on the road. Electric vehicle makers provide GPS clues on their moving map displays, and electric pilots will doubtless have markers for fields with appropriate facilities for our future E-flyers. Researchers at the University of Massachusetts at Lowell may have done an end run around that problem, though. Their “new technology uses water, carbon dioxide and the metal cobalt to produce hydrogen gas on demand at a relatively low temperature and pressure.” The hydrogen produced goes directly to a fuel cell which generates electricity and powers the EV’s motor, rechargeable battery and headlights. When the canister that contains the H2 is empty, the driver can swap it with a “full” one. The researchers haven’t shared a great number of details, but we can guess the volume and weight of the canisters based on similar applications on the Pipistrel H4 and e-Genius, the much tested first and second-place winners, respectively, …