REEED.ru

  

NEWS

Reviews are add­ed Amazon Kindle 2

A program­me is ad­ded AlReader 2 (Win­dows)

A program­me is ad­ded ReadManiac (Pho­ne)

A program­me is ad­ded AlReader 2 (Win­dows Mobile)

A program­me is ad­ded ABBYY PDF Tra­nsformer

A program­me is ad­ded PocketXpdf (Win­dows Mobile)

Digital libraries in the ePub

Reviews are add­ed Sony Book Rea­der PRS-700

A program­me is added FBReader (Windows)

A program­me is added Ice Book Reader Professional

A program­me is added smartReader

A program­me is added FBReader (Linux)

Reviews are added Apple iPhone 3G

Reviews are added HTC S710

Reviews are added Nokia E71

Reviews are added Nokia N810 Internet Tablet

Reviews are added Amazon Kindle

Reviews are added Hewlett-Packard iPAQ 214

A programme is added BookShelf v5.00

An article is added P-Ink Tech­nology Under Deve­lopment

An article is added The Future of Electronic Paper

Reviews are added Cybook Gen3

Reviews are added Sony Reader RPS-505

P-Ink Technology Under Development

The Toronto based Start-Up Company Opalux has developed a new type of electronic ink, based on photonic crystals called P-ink. The new crystal-based e-paper can display colors in a way that current technology has not enabled until now. This promising technology, which is just taking its first steps, could become commercial within the next two years, promising low power consuming, low cost, color rich, electronic paper displays.




Opalux nanocomposites can be electrically tuned to any color in the visible, UV or IR spectrum
Opalux nanocomposites can be
electrically tuned to any color in the
visible, UV or IR spectrum

According to Professor Geoffrey A. Ozin from the Department of Chemistry in the University of Toronto, who developed the new photonic crystals with Opalux, P-Ink is made of a metallopolymer opal gel. The metallopolymer opal gel reversibly swells and shrinks when electricity is applied or removed. Another similar photonic crystal developed by Ozin is called Elast-Ink. Elast-Ink is made of an elastomeric opal that undergoes reversible dimensional changes in accordance with the mechanical force applied to it.

Until now, photonic crystals only reflected a very specific wavelength that could not be changed after the crystal was formed. Opalux was able to produce a photonic crystal that is electrically tunable, meaning that is can reflect different wavelengths. Because the crystals are able to reflect light in many wavelengths, they can display an array of colors, ranging from Ultra-Violet to Infra-Red, and including the entire visible spectrum of light. The photonic crystals are embedded within a sponge-like electro-active polymer, which is laid between electrodes. An electrolyte fluid controls the electricity applied to the crystals. 

According to Opalux, their photonic crystals technology has many advantages, including high brightness, low power consumption, a relatively quick response time (Opalux states sub-second switching speed - sufficient for text and images but not for video), potential flexibility and durability. Cost, which is a major factor in current electronic paper technology, should increase only linearly in accordance with the size of the e-paper.  

Opalux is currently working on developing the first prototype e-paper based on P-ink technology, aimed at the commercial billboard market. It will be interesting to see whether this technology will indeed reach a commercial stage and progress into other markets such as the electronic-book market, which currently includes only monochromatic devices.  

Opalux has demonstrated reverse opal films that permit mechanical activation of optical properties from IR, through visible to the UV range
Opalux has demonstrated reverse opal films
that permit mechanical activation of optical
properties from IR, through visible to the UV range.
A second technology currently under development by Opalux is based on Elast-Ink, which according to the company, can be activated by mechanical pressure alone. According to the company, the Elast-Ink can be used without electrical power or an attached network and includes visible (color) instant verification. The technology could be used for a variety of biometric-based security devices that require very low or even no power at all. 





Author: Avner Yanai
October 10, 2007


Related links:


      © 2008-2009 REEED.ru™      

  • Main
  • Programs
  • Libraries
  • Sitemap