Event Title
Interfacing and Establishing a Lab Station for Optoelectronic Measurements of OLEDs.
Location
CSU 201
Start Date
25-4-2006 10:30 AM
End Date
25-4-2006 12:00 PM
Student's Major
Physics and Astronomy
Student's College
Science, Engineering and Technology
Mentor's Name
Hai-Sheng Wu
Mentor's Department
Physics and Astronomy
Mentor's College
Science, Engineering and Technology
Description
Organic Light-Emitting Diode (OLED) research is vital to the advancement of display technology. The benefits of OLEDs over traditional light emitting diodes include less power draw, brighter displays, and longer life. The purpose of designing this lab station is to facilitate the research on the characterization of optoelectronic properties of LEDs and OLEDs. The major achievement of this work was in the development of VI (Virtual Instrumentation) programs using LabVIEW^'^ 7.1 to interface with various measuring instruments. The results of the measurements on the optoelectronic properties such as currents-voltage, current-luminance, voltage-luminance characteristics, and the emission spectra of LEDs and OLEDs are reported. The lab station has been tested and calibrated using blue, green, yellow, red and white colored LEDs. An OLED fabricated at Ames Lab, Iowa State University was characterized using this lab station and the results show that the measurement system is working properly.
Interfacing and Establishing a Lab Station for Optoelectronic Measurements of OLEDs.
CSU 201
Organic Light-Emitting Diode (OLED) research is vital to the advancement of display technology. The benefits of OLEDs over traditional light emitting diodes include less power draw, brighter displays, and longer life. The purpose of designing this lab station is to facilitate the research on the characterization of optoelectronic properties of LEDs and OLEDs. The major achievement of this work was in the development of VI (Virtual Instrumentation) programs using LabVIEW^'^ 7.1 to interface with various measuring instruments. The results of the measurements on the optoelectronic properties such as currents-voltage, current-luminance, voltage-luminance characteristics, and the emission spectra of LEDs and OLEDs are reported. The lab station has been tested and calibrated using blue, green, yellow, red and white colored LEDs. An OLED fabricated at Ames Lab, Iowa State University was characterized using this lab station and the results show that the measurement system is working properly.
Recommended Citation
Besser, Steven K.. "Interfacing and Establishing a Lab Station for Optoelectronic Measurements of OLEDs.." Undergraduate Research Symposium, Mankato, MN, April 25, 2006.
https://cornerstone.lib.mnsu.edu/urs/2006/oral-session-M/4
