New Material Transforms Car Bodies Into Batteries

MikeChino writes "As battery manufacturers race to produce more efficient lithium-ion batteries for electric vehicles, some scientists are looking to make the cars themselves a power source. Researchers are currently developing a new auto body material that can store and release electrical energy like a battery. Once perfected, scientists hope the substance will replace standard car bodies, making vehicles up to 15 percent lighter and significantly extending the range of electric vehicles."

Re:Good

[Rei]

Biofuels are not a long-term solution. Corn ethanol is over two orders of magnitude more land-intensive than solar thermal. Algae is just under one order of magnitude more land intensive. Plus, biofuel creation requires water, fertilizer, processing, etc. And the combination of needing "lots of water" and "lots of sun" can be rather mutually exclusive, as the sunniest places in the country are desert. Solar thermal is closed loop.

If your goal is to turn solar energy into propulsion, pure electric is the way to go.

Although the long recharge time is part of it

That's what rapid charging is for.

the main part is that you do not want to buy more battery than you are going to be using since the battery will be one of the most expensive parts of the car.

Indeed, the real issue is price. But that will fall significantly with mass production. And the operating cost advantage will remain, so eventually, even if sticker shock remains an issue for prospective buyers, seeing a lease price that's significantly cheaper than a gasoline car's lease plus the cost of gasoline that month should eventually drive the point home.

Furthermore, the main point to oversized gas tanks is to make it so that you don't have to fill up too often in your daily lives. Filling up is, after all, a pain; who wants to drive out of their way to pay for the privilege of pumping carcinogens in the middle of a blizzard? One of your average EV driver's favorite benefits is the fact that you start each day with a full charge. You don't even have to think about it in your daily life. The only time range comes into play is when you take long trips. But what's the point of having 700-800 miles on a long trip? Dear god, if you drive 700-800 miles without stopping to rest or eat, please don't do it when I'm on the road!

Lastly: In 1989, a new top of the line battery hit the market: the nickel metal hydride cell. It boasted 45Wh/kg energy density. Today, just over two decades later, commercially available li-ion cells boast up to 220 Wh/kg -- almost five times higher -- plus an order of magnitude higher power density. This trend shows no signs of slowing down; rather, it appears to be accelerating. So take that into account when talking about range for the future.

Re:Good

[Jeng]

Why not just make the batteries swappable at service stations?

Too many variables. How much charge is in the current battery, how much wear and tear are in the battery you just got versus what you just gave, what happens when you get a partial dud, how many batteries can be swapped out a day, the physical labor of swapping batteries, what do you charge/how do you come to the cost and how does that make you competitive with your competition.

I thought it would be a smart idea to change out the electrolyte instead of the whole battery, but it wasn't actually all that smart either.