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Organic Electronics Technology Analyst: Marifaith Hackett Phone: +1-650-859-4752 Fax: +1-650-859-4544 Viewpoints About This Technology   Download the Technology Map  (PDF) View the Technology Map's Table of Contents Viewpoints   2008 July - Electrochromic Mirrors and Windows June - Quantum Dots: The Bright Stuff May - Bright Lights: Advances in OLED Lighting April - OLED-Display Production: A Snapshot March - The Inside Story: Materials for OLED Displays February - Power from the Sun: Recent Progress in Organic Photovoltaics     2007 Dec/Jan - 2007: The Year in Review Look for These Developments in 2008 November - The OE-A's Roadmap for Organic Electronics October - OLED Displays: The Next Stage September - A New Benchmark for Polymer Solar-Cell Efficiency Sumitomo Chemical to Acquire Cambridge Display Technology Announcement: Explorer Technology Area Virtual Environments Becomes Virtual Worlds August - Carbon Nanotubes as Transparent Electrodes Printed OLED Displays from DuPont July - Progress in Organic Thin-Film Transistors New Technology Area: User Interfaces June - Stylishly Slim: OLED Televisions from Sony and Toshiba Near-Term Pain for the OLEDDisplay Industry May - GE, Konica Minolta to Collaborate on OLED Lighting Lumicure's Healing Light April - OLED Displays: An Update Sensors: A New Application for Printed Electronics March - Organic Photovoltaic Cells: An Update February - Flexible Displays: Just around the Bend     1996–2006 Viewpoints archive  >> About This Technology Most materials that have electrical or electronic properties are metals or inorganic compounds such as copper, silver, gold, doped silicon, or indium tin oxide (tin-doped indium oxide). This Technology Map focuses on organic electronic materials: carbon-based chemicals and polymers that exhibit electrical conductivity, semiconductivity, electroluminescence, or photovoltaic properties. Examples of organic electronic materials include light-emitting small molecules and polymers, organic semiconductors, and conductive polymers. Although organic electronic materials offer distinct performance advantages in many applications, much of the interest in these materials is due to a more mundane attribute: their potential for use in low-cost, high-volume manufacturing processes. Organic electronic materials may play a key role in reducing production costs for flat-panel televisions, flexible displays, RFID tags, and other electronic devices. In addition, these materials offer design flexibility because of their compatibility with flexible and rigid substrates. This technology has the potential for widespread application and could lead to ubiquitous, inexpensive—even disposable—electronic devices. Industry players include both large, diversified powerhouses of the materials and consumer-electronics industries and start-ups that focus on a single technology application. Current commercial products include OLED displays, capacitors, electroluminescent backlights, and static-control products. Emerging end uses include solar cells, lighting, flexible displays (electronic paper), and RFID tags.

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