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Supporting Data for "3D Printed Flexible Organic Light-Emitting Diode Displays"

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Collection period

2018-09-01
2021-10-15

Date completed

2021-10-15

Date updated

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Journal Title

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Volume Title

Title

Supporting Data for "3D Printed Flexible Organic Light-Emitting Diode Displays"

Published Date

2021-10-26

Author Contact

McAlpine, Michael C
mcalpine@umn.edu

Type

Dataset
Experimental Data

Abstract

The ability to fully 3D print active electronic and optoelectronic devices will enable novel device form factors via strategies untethered from conventional microfabrication facilities. Currently, the performance of 3D printed optoelectronics can suffer from nonuniformities in the solution-deposited active layers and unstable polymer-metal junctions. Here we demonstrate a multimodal printing methodology that results in fully 3D printed flexible organic light-emitting diode displays. The electrodes, interconnects, insulation, and encapsulation are all extrusion printed, while the active layers are spray printed. Spray printing leads to improved layer uniformity via suppression of directional mass transport in the printed droplets. By exploiting the viscoelastic oxide surface of the printed cathode droplets, a mechanical reconfiguration process is achieved to increase the contact area of the polymer-metal junctions. The uniform cathode array is intimately interfaced with the top interconnects. This hybrid approach creates a fully 3D printed flexible 8×8 display with all pixels turning on successfully.

Description

This data set includes the supporting data for the article, 3D Printed flexible organic light-emitting diode displays.

Referenced by

Ruitao Su, Sung Hyun Park, Xia Ouyang, Song Ih Ahn, Michael C. McAlpine, 3D Printed Flexible Organic Light-Emitting Diode Displays, Science Advances 8, eabl8798 (2022).
DOI: 10.1126/sciadv.abl8798

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Funding information

Sponsorship: National Institute of Biomedical Imaging and Bioengineering of the National Institutes of Health, Award number: 4DP2EB020537; The Boeing Company; The State of Minnesota MnDRIVE; National Science Foundation through the National Nano Coordinated Infrastructure Network, Award Number: ECCS-2025124.

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Previously Published Citation

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Suggested citation

Su, Ruitao; Park, Sung H; Ouyang, Xia; Ahn, Song I; McAlpine, Michael C. (2021). Supporting Data for "3D Printed Flexible Organic Light-Emitting Diode Displays". Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/C1EH-6682.

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Fig. 1.zip
Raw data for Figure 1D, including electroluminescent (EL) spectrum of 3D printed OLED.
(78.72 KB)

Fig. 2.zip
Raw data for Figure 2B, 2C, 2E and 2F, including surface profiles of MDMO-PPV layers, mean thicknesses of MDMO-PPV layers, I-V curves of OLEDs, and irradiance during the lifetime measurement of OLEDs.
(531.26 KB)

Fig. 3.zip
Raw data for Figure 3C, 3F, 3G and 3H, including compression force series during EGaIn reconfiguration, height-area before and after reconfiguration, and change ratio of height and area under varying compression depth.
(106.12 KB)

Fig. 4.zip
Raw data for Figure 4D and 4E, including measurement of the reponse time of 3D printed OLED and summary of pixel irradiance of the 3D printed 8X8 OLED display.
(49.1 KB)

Fig. 5.zip
Raw data for Figure 5B and 5C, including optical power measurement of OLEDs under varying bending curvatures and orientations.
(52.96 KB)

Fig. S2.zip
Raw data for Figure S2B, including the measurement of irradiance under varying operation voltages for spray and extrusion printed OLEDs.
(35.25 KB)

Fig. S4 & Table S1.zip
Raw data for Figure S4A, S4B and Table S1, including energy-dispersive X-ray spectroscopy (EDS) spectra measured at Site 1 and Site 2 and summary of the elemental weight ratio.
(126.82 KB)

Fig. S5.zip
Raw data for Figure S5A-F, including compression force series during EGaIn reconfiguration under varying compression rate and compression force series during the dwell stage of the compressed EGaIn droplets.
(163.81 KB)

Fig. S8.zip
Raw data for Figure S8, including measurement of the emission power variation of 3D printed OLEDs during cyclic bending tests.
(58.83 KB)

Readme.txt
Description of the data
(5.63 KB)

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