Thanks to HellQat & Mooter for the clarification
Here is the LA Times art if full - sorry about the formatting!!
Monday, January 11, 1999
SCIENCE WATCH
The Next Big Thing in Battery Power? They're Working on
It
By LEE DYE
Scientists around the world are reporting significant progress in
developing a new generation of lithium batteries that could be the energy source of the future for everything from laptop computers to electric vehicles.
Although lithium battery technology is only about a decade old, it has already reached a major fork in the road.
Lithium batteries have four times the energy of lead-acid batteries like those used in cars, and two to three times the energy density of nickel-cadmium batteries. But rechargeable lithium batteries that are
used in portable electronics have spawned a host of concerns. The metallic lithium used today produces a byproduct that can burst into flame if exposed to air, and there have been reports of fires caused by leaking batteries.
That has led several research organizations, including Sandia National Laboratories in Albuquerque, to explore an entirely different approach. The goal is to produce a nonmetallic lithium ion battery that eliminates the threat of fire but still can be recharged quickly, and without loss of output, hundreds of times.
One company, Ultralife Batteries, which was established in 1991 to
acquire the assets of Eastman Kodak's lithium battery division, is staking its future on the emerging technology.
"There's a tremendous amount of research worldwide" on lithium ion
batteries, especially in Japan and Western Europe, said Dan Daughty,
who manages lithium research at Sandia.
Like any battery, a lithium battery converts chemical energy to electrical energy. It consists of two electrodes (a cathode and an
anode) separated by an electrolyte that produces the chemical reaction that causes electrons to flow from the cathode to the anode, producing the current.
Today's lithium batteries use lithium metal anodes, Daughty said, and a liquid electrolyte. The "battery of the future" uses nonmetallic lithium; thus it is a lithium ion battery. After many cycles of discharging and recharging, lithium powder builds up in the battery.
If the metal jacket that contains the battery is breached, by puncture or heat, the lithium powder may be exposed to air and ignite, he said. Failure seems to occur most often during the charging cycle, researchers said.
Scientists at Sandia, Ultralife and other institutions are using a nonmetallic lithium ion trapped in a host material, such as carbon, to build lithium ion batteries. This combination produces no lithium powder.
Ultralife's new lithium ion batteries use a solid polymer electrolyte,
and that offers some advantages, according to Greg Smith, marketing
manager for the firm.
That "revolutionary technology," as he described it, makes it possible
to design batteries in any shape and virtually any size.
"A solid polymer battery can be less than 1 millimeter in thickness,"
he said. "And you can do odd shapes, because it is housed in a
super-thin, flexible laminate. You can even curve the cell."
Ultralife claims its batteries can be recharged hundreds of times and
don't have the "memory" that shortens the life span of nickel cadmium
batteries.
And the batteries contain no hazardous metals such as lead or mercury, so they can be discarded safely, Smith said. Although researchers say lithium ion batteries could be scaled up even for electric vehicles, the more immediate goal is to make them vailable for portable ectronic devices. But even that hasn't been easy.
"This is an emerging technology," said Ultralife's Smith.
Sandia's Daughty said the lab has approached several manufactures with the technology, but has no takers. He blames that partly on the fact that the technology is so new and most manufacturers already have large investments in production equipment for other types of batteries.
Ultralife is not quite ready to begin production-line manufacturing of lithium ion batteries, although prototypes were sent to more than 60 potential customers, Smith said. The company is concentrating on consumer electronics, he said, because that offers the best chance of a more immediate payoff.
Meanwhile, across the Pacific, Japan is moving furiously ahead on
lithium battery research. "The Japanese just dominate the market,"
Daughty said. Such giants as Sony and Mitsubishi are leading the
charge, at the aggressive urging--and with some financial support--of
Japan's Ministry of International Trade and Industry.
Nonetheless, it may take a while.
"The high-tech world is spoiled by the speed at which electronics
advance," said Ultralife's Smith. Progress in developing and marketing
new batteries, he said, "moves about as fast as a snail."
* * *
Lee Dye can be reached via e-mail at leedye@compuserve.com.
Copyright 1999 Los Angeles Times. All Rights Reserved
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