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39.2: The Full‐Color Video Images with Uniquely‐Gated Carbon Nano‐tube Field Emission Displays
Author(s) -
Lee C. G.,
Jung J. E.,
Jin Y. W.,
Jo S. H.,
Lee S. J.,
Choi J. H.,
Park N. S.,
Choi Y. S.,
Hwang S. Y.,
Kim J. W.,
Lee H. W.,
Park Y. J.,
Chi E. J.,
Jang J. E.,
Lee J. S.,
Lee S. J.,
Cho S. H.,
Chung D. S.,
Cha S. N.,
Cha J. C.,
Lee B. G.,
Han H. S.,
Ahn S. H.,
Lee S. J.,
Park S. Y.,
Ryu K. S.,
Jin S. H.,
Jung K. W.,
Min K. W.,
Choi J. S.,
Oh T. S.,
Kang S. K.,
Kim J. M.
Publication year - 2002
Publication title -
sid symposium digest of technical papers
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.351
H-Index - 44
eISSN - 2168-0159
pISSN - 0097-966X
DOI - 10.1889/1.1830142
Subject(s) - cathode , field emission display , materials science , carbon nanotube , field electron emission , optoelectronics , flat panel , flat panel display , voltage , tube (container) , cathode ray tube , screen printing , nanotechnology , electrical engineering , optics , engineering , composite material , physics , electron , quantum mechanics
Abstract Thick‐film printing processes have been applied for preparing a carbon nanotube field emission display (c‐FED), which has a strong cost advantage for large‐size flat panel display. For practical display applications, two types of the gated cathode structure named the normal‐gate cathode and the under‐gate cathode have been developed and improved. The normal‐gate and the under‐gate cathode structures have the driving voltages of ±35 V and ±65 V, respectively. The 5″ c‐FED panel with the normal‐gate cathode and the 7″ c‐FED panel with the under‐gate cathode were successfully implemented and excellent full‐color video images were obtained.