TY - JOUR
AU1 - Meitl, Matthew A.
AU2 - Radauscher, Erich
AU3 - Rotzoll, Robert
AU4 - Raymond, Brook
AU5 - Bonafede, Salvatore
AU6 - Gomez, David
AU7 - Moore, Tanya
AU8 - Prevatte, Carl
AU9 - Fecioru, AIM
AU1 - Trindade, Antonio J.
AU1 - Bower, Christopher A.
AB - Major advances in flat panel displays can come from the pixel‐level 
integration of high performance microscale components 
fabricated on semiconductor wafers and transferred by 
advanced assembly methods onto large‐area substrates. 
Displays that use direct light emission from tiny inorganic light 
emitting diodes (µILEDs) have the potential to be very bright 
and power efficient. Transfer‐printing with elastomer stamps is 
a candidate assembly technology for making µILED displays, 
serving as the metaphorical bridge between the LED wafer and 
the display panel. This paper presents simple demonstrations of 
displays made from red, green, and blue µILEDs fabricated on 
gallium arsenide, silicon, and sapphire wafers, transferred to 
glass and plastic display substrates by transfer‐printing. The 
demonstrator displays exhibit interesting characteristics, 
including transparency, flexibility, repair‐ability, wide color 
gamut, and pulse‐width modulated active matrix driving 
schemes facilitated by transfer‐printed micro‐scale driver 
circuits.
TI - 19‐4: Invited Paper: Emissive Displays with Transfer‐Printed Microscale Inorganic LEDs
JF - Sid Symposium Digest of Technical Papers
DO - 10.1002/sdtp.11682
DA - 2017-05-01
UR - https://www.deepdyve.com/lp/wiley/19-4-invited-paper-emissive-displays-with-transfer-printed-microscale-pYI28F7RCJ
SP - 257
EP - 263
VL - 48
IS - 1
DP - DeepDyve
ER -