Abstract
Techniques for manufacturing organic electronic devices [organic light-emitting diodes (OLEDs), photovoltaic cells, transistors, and solid-state memory] are reviewed and analyzed with respect to cost and market fitness in comparison to competitive approaches based on silicon electronics. The conclusions are (i) OLED displays will be successful using infrastructure largely borrowed from liquid crystal displays, because they provide fundamental customer value not dependent on lower cost; (ii) OLEDs for general lighting and organic–inorganic hybrid photovoltaic cells currently confront substantial barriers in cost and efficiency, but solutions appear feasible and would lead to very large volume businesses; (iii) organic crossbar memories are promising, but require innovations in driver architecture and interconnection; and (iv) organic transistors have not yet found a viable major market, but have great promise for highly customized, small-volume product runs using digital patterning techniques.
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference120 articles.
1. 82. W-K. Chang: in Nikkei Electronics Asia, August 2002 (available at http://neasia.nikkeibp.com/nea/200208/inst200146.html). The cost quoted here assumes manufacturing cost to be 50% of consumer price, and the TFT panel to be 40% of manufacturing cost; these are approximate but reasonable estimates. Current retail prices of LCD monitors suggests that Samsung as well as many other companies are meeting or exceeding this projection already.
2. Alternative Lithography
3. Soft Lithography
4. Low pressure organic vapor phase deposition of small molecular weight organic light emitting device structures
5. 50. From 2003 CIA World Factbook; http://www.photius.com/rankings/electricityconsumption0.html
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