Topic: Is this the long-awaited battery breakthrough?  (Read 1650 times)

0 Members and 2 Guests are viewing this topic.

Offline Dracho

  • Global Moderator
  • Rear Admiral
  • *
  • Posts: 18289
  • Gender: Male
Is this the long-awaited battery breakthrough?
« on: January 17, 2008, 04:01:28 pm »
Besides laptops, the uses in electric / hybrid vehicles is obvious.. especially with the weight reduction.


Breakthrough Could Mean 40-Hour Laptop Batteries

Imagine running your laptop nonstop from New York to Tokyo -- crunch some numbers, work on a memo pop in a few DVDs -- and then do a full day of meetings, using your machine throughout the day and into the night. Imagine doing all this without ever plugging in your computer to recharge its battery.

This scenario may become reality in the near future, if Stanford University scientists succeed in commercializing a breakthrough in the laboratory. Assistant Professor Yi Cui and associates at Stanford's Department of Materials Science and Engineering said they have developed a method to increase the life of rechargeable lithium ion batteries to a whopping 40 hours.

Publishing in the journal Nature Nanotechnology, the Stanford researchers have shown that by using silicon nanowires as the battery anode instead of today's graphite, the amount of lithium the anode can hold is extended tenfold.

Revolution in Battery Design

"It's not a small improvement," Cui said. "It's a revolutionary development." And Cui means to move the development out of the lab as soon as possible. "We are working on scaling up and evaluating the cost of our technology," Cui said. "There are no roadblocks for either of these."

Cui has filed a patent on the technology and is evaluating the formation of a company or licensing the technology to a battery manufacturer. Potentially two-day batteries could be on the market within "several years," he said.

Silicon anodes are not a new idea. Researchers have known for some 30 years that they have the "highest theoretical charge capacity," but, until now, they haven't been practical because they change volume by 400 percent as lithium is inserted and extracted, the journal said. Cui's solution: a sponge-like network of tiny silicon nanowires, each of which expands but doesn't fracture.

"Nanowires grown directly on the current collector do not pulverize or break into smaller particles after cycling," the journal reports. "Rather, facile strain relaxation in the nanowires allows them to increase in diameter and length without breaking."

The Many Advantages of Nanowires

Not only can the nanowires handle the extreme volume changes, they also "provide good electronic contact and conduction, and display short lithium insertion distances," Cui wrote. "We achieved the theoretical charge capacity for silicon anodes and maintained a discharge capacity close to 75 percent of this maximum, with little fading during cycling."

The nanowires are grown directly on the metallic substrate that collects current, a process that has several advantages, Cui explained. First, the nanowires' small diameter can better accommodate the four-fold expansion in volume without fracturing. In addition, each nanowire is electrically connected to the metallic current collector, so all the nanowires contribute to battery capacity.

The nanowires also offer efficient "charge transport" and eliminate the need for additives to conduct electricity, which add weight, the journal stated. In addition to Cui, the researchers were Candace K. Chan, Hailin Peng, Gao Liu, Kevin McIlwrath, Xiao Feng Zhang and Robert A. Huggins.
http://tech.yahoo.com/news/nf/57832

The worst enemy of a good plan is the dream of a perfect plan.  - Karl von Clausewitz

Offline Nemesis

  • Captain Kayn
  • Global Moderator
  • Commodore
  • *
  • Posts: 13067
Re: Is this the long-awaited battery breakthrough?
« Reply #1 on: January 17, 2008, 06:49:59 pm »
Some such break through is needed and whoever makes it will make their fortune.  It will also enable all sorts of portable electronics that haven't been produced yet as they can't be powered.  It might also make for an explosion in autonomous robots as powering them has always been an issue.

Do unto others as Frey has done unto you.
Seti Team    Free Software
I believe truth and principle do matter. If you have to sacrifice them to get the results you want, then the results aren't worth it.
 FoaS_XC : "Take great pains to distinguish a criticism vs. an attack. A person reading a post should never be able to confuse the two."

Offline Villa64

  • NCC-64E
  • Captain
  • *
  • Posts: 5672
  • Knuckle Dragger
Re: Is this the long-awaited battery breakthrough?
« Reply #2 on: January 18, 2008, 03:56:27 pm »
"Nanowires grown directly on the current collector do not pulverize or break into smaller particles after cycling," the journal reports. "Rather, facile strain relaxation in the nanowires allows them to increase in diameter and length without breaking."
---------------------

..uuhhhh...WHAT?
Engaging the precious snowflakes of the world.

Offline Nemesis

  • Captain Kayn
  • Global Moderator
  • Commodore
  • *
  • Posts: 13067
Re: Is this the long-awaited battery breakthrough?
« Reply #3 on: January 18, 2008, 08:50:24 pm »
They have elastic like properties.
Do unto others as Frey has done unto you.
Seti Team    Free Software
I believe truth and principle do matter. If you have to sacrifice them to get the results you want, then the results aren't worth it.
 FoaS_XC : "Take great pains to distinguish a criticism vs. an attack. A person reading a post should never be able to confuse the two."

Offline Death_Merchant

  • Commander
  • *
  • Posts: 3639
  • Gender: Male
Re: Is this the long-awaited battery breakthrough?
« Reply #4 on: January 21, 2008, 03:57:30 pm »
No, it's more likely due to the small size, and therefore lack on inherent flaws, of the nanotubes.

For example: A 20' elastic tube has the same elasticity (Young's modulus) as a nanotube, but has a much lower yield and ultimate strength.
"In the beginning the Universe was created. This has made a lot of people very angry and is widely regarded as a bad move." - Douglas Adams (1952-2001)

Offline Beeblebrox

  • Existential Warfare
  • Lt. Junior Grade
  • *
  • Posts: 303
Re: Is this the long-awaited battery breakthrough?
« Reply #5 on: January 24, 2008, 10:46:51 pm »
No, it's more likely due to the small size, and therefore lack on inherent flaws, of the nanotubes.

For example: A 20' elastic tube has the same elasticity (Young's modulus) as a nanotube, but has a much lower yield and ultimate strength.


I haven't been able to corner a full definition of "facile strain relaxation" as most of them seem to be on research sites which require special access.  However, from what I've been able to gather from the bits and pieces, facile strain relaxation is a property bestowed upon a material through a (usually) lengthy process.  I'm just unsure what that process is and I'd love to know.
"Out swords and to work with all!"---Cyrano de Bergerac