| Japanese scientists have developed a paper-thin | | | | currently at two and four volts output voltage. What |
| battery Lithium-polymer base which can be | | | | capacity can be achieved with a printed Ibm thinkpad |
| produced with printer technologies. | | | | t61 battery cell remained, the researchers so |
| In Advanced Materials Innovation Centre (AMIC) | | | | far,however, still guilty. In Advanced Materials |
| explored technology enables a cheap industrial | | | | Innovation Centre (AMIC) explored technology |
| production. The thin and bendable own nature, the | | | | enables a cheap industrial production. The thin and |
| battery also was used in solar panels, reported the | | | | bendable own nature, the battery also was used in |
| Asian Technology Platform Tech-On. In contrast to | | | | solar panels, reported the Asian Technology Platform |
| lithium-ion batteries are based lithium-polymer | | | | Tech-On. In contrast to lithium-ion batteries are |
| batteries, not a liquid but a solid electrolyte. The | | | | based lithium-polymer batteries, not a liquid but a solid |
| developers, however, it is possible to produce the | | | | electrolyte.As regards the use electrode materials |
| battery in a paper-like design, which promises | | | | used and the polymer electrolyte envelop the |
| maximum flexibility in production and use. Through the | | | | Japanese scientists still in silence. Japanese scientists |
| incorporation in solar panels to produce the battery | | | | have developed a paper-thin battery Lithium-polymer |
| and could therefore also be used to store energy. | | | | base which can be produced with printer |
| Also, an additional coating to protect the battery is | | | | technologies.The thickness of the battery was stated |
| not a problem | | | | to be only 500 micrometers. The research project is |
| Currently, scientists are experimenting with two | | | | scheduled by end 2011. |
| prototypes that bring it to room temperature | | | | |