One very important thing that you must remember - the LiIon batteries need a Battery Management System for EACH cell - that is, something that can regulate both input charging current and output discharging current. To my knowledge, there isn't any home-grown BMS (or LiIon batteries, for that matter) that I have heard of in a full street-legal EV (capable of highway speeds) in the entire midwestern United States.
Without the proper BMS, the batteries don't last anywhere near 2,000-3,000 cycles, and depending on the chemistry they may catch fire. So the BMS is critical.
Due to this very practical limitation, LiIon batteries have not been used by EVers and in my opinion will not be used very much (if at all) in the next 10 years.
In 2003 we were hoping (and fully believed) that LiIon batteries would come down in price. They have not - they have only gone up in price, due to general surging demand in lithium batteries from China and India, along with the decline of the US $.
My prediction is that in another 5-10 years the prices will not come down due to volume production and may actually continue to climb. A good example is NiMh batteries - they make millioins of packs for all the hybrids, but none are available for the hobbyist EVers.
Let's stick with lead-acid and learn to live with 20-50 miles on a charge. It's called planning your trip, pushing hard to opportunity charge whenever you can, and CONSERVE, CONSERVE, CONSERVE. It's the only way a daily use EV will meet your needs. Think of it as being ahead of the curve - in 10-20 years, oil depletion will force everyone to conserve - so we're doing it a couple decades ahead of time, and helping out the environment and using a little less foreign oil to boot.
