Electronic Formulations-Photopatterning of Luminescent Conjugated Polymers

The versatility of light‐emitting conjugated polymers in terms of optoelectronic properties is enormous, but tailoring of other essential properties has been relatively limited. In other fields such a problem would be rectified using material formulations. However, the need to maintain high optoelec...

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Published in	Advanced functional materials Vol. 16; no. 16; pp. 2095 - 2102
Main Authors	Solomeshch, O., Medvedev, V., Mackie, P. R., Cupertino, D., Razin, A., Tessler, N.
Format	Journal Article
Language	English
Published	Weinheim WILEY-VCH Verlag 20.10.2006 WILEY‐VCH Verlag
Subjects	Conjugated polymers Light-emitting diodes Light‐emitting diodes, organic Optoelectronic materials organic Patterning Poly(phenylene vinylene)s
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Abstract	The versatility of light‐emitting conjugated polymers in terms of optoelectronic properties is enormous, but tailoring of other essential properties has been relatively limited. In other fields such a problem would be rectified using material formulations. However, the need to maintain high optoelectronic compatibility between components has hampered such development. In this paper, careful design of electronically compatible materials is demonstrated. Additive molecules that are compatible with a family of luminescent polymers are presented, and their performance in a light‐emitting diode configuration is demonstrated. This formulation is aimed to adjust the glass‐transition temperature, maintain/improve film‐forming ability, and introduce a crosslinking functionality. It is found that, by using electronic formulations, a robust procedure is obtained that could be used to produce waveguide lasers or full‐color displays. The patterning ability is shown via the construction of a single pixel that is half green and half orange. Guidelines for creating electronic formulations that can be used in organic light‐emitting diode materials are presented. This concept is used to produce a formulation that is compatible with a family of electroluminescent poly(phenylenevinylene) polymers, rendering them photocrosslinkable. The patterning ability is shown via the construction of a single pixel that is half green and half orange.
AbstractList	The versatility of light‐emitting conjugated polymers in terms of optoelectronic properties is enormous, but tailoring of other essential properties has been relatively limited. In other fields such a problem would be rectified using material formulations. However, the need to maintain high optoelectronic compatibility between components has hampered such development. In this paper, careful design of electronically compatible materials is demonstrated. Additive molecules that are compatible with a family of luminescent polymers are presented, and their performance in a light‐emitting diode configuration is demonstrated. This formulation is aimed to adjust the glass‐transition temperature, maintain/improve film‐forming ability, and introduce a crosslinking functionality. It is found that, by using electronic formulations, a robust procedure is obtained that could be used to produce waveguide lasers or full‐color displays. The patterning ability is shown via the construction of a single pixel that is half green and half orange. Guidelines for creating electronic formulations that can be used in organic light‐emitting diode materials are presented. This concept is used to produce a formulation that is compatible with a family of electroluminescent poly(phenylenevinylene) polymers, rendering them photocrosslinkable. The patterning ability is shown via the construction of a single pixel that is half green and half orange. Abstract The versatility of light‐emitting conjugated polymers in terms of optoelectronic properties is enormous, but tailoring of other essential properties has been relatively limited. In other fields such a problem would be rectified using material formulations. However, the need to maintain high optoelectronic compatibility between components has hampered such development. In this paper, careful design of electronically compatible materials is demonstrated. Additive molecules that are compatible with a family of luminescent polymers are presented, and their performance in a light‐emitting diode configuration is demonstrated. This formulation is aimed to adjust the glass‐transition temperature, maintain/improve film‐forming ability, and introduce a crosslinking functionality. It is found that, by using electronic formulations, a robust procedure is obtained that could be used to produce waveguide lasers or full‐color displays. The patterning ability is shown via the construction of a single pixel that is half green and half orange.
Author	Solomeshch, O. Medvedev, V. Tessler, N. Razin, A. Mackie, P. R. Cupertino, D.
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Cites_doi	10.1002/macp.200500455 10.1016/S0379-6779(99)00145-9 10.1063/1.118664 10.1063/1.121983 10.1002/adma.19970090308 10.1063/1.1600850 10.1002/pssa.200404342 10.1109/2944.999190 10.1126/science.285.5425.233 10.1016/S0379-6779(99)00330-6 10.1002/(SICI)1521-4095(200001)12:1<42::AID-ADMA42>3.0.CO;2-F 10.1002/adma.200304653 10.1016/S0022-328X(98)01055-9 10.1063/1.2119418 10.1038/376498a0 10.1002/9783527618231.ch2k 10.1038/nature01390 10.1038/25954 10.1002/adma.200500258 10.1126/science.1068153 10.1063/1.343409 10.1016/S0379-6779(99)00408-7 10.1016/j.orgel.2005.06.006 10.1016/S0379-6779(97)80097-5
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Notes	istex:2894D882A145E6A89698ED6661DB83F75D3E9F74 We acknowledge support by the EU through contract no. G5RD-CT-2001-00577 OPAMD. O. Solomeshch expresses her deep gratitude to the Center of Absorption in Science, Ministry of Absorption, Israel. We thank Covion for the PPV polymers used in this report. ArticleID:ADFM200600146 ark:/67375/WNG-D87GSMBK-9 EU - No. G5RD-CT-2001-00577 OPAMD We acknowledge support by the EU through contract no. G5RD‐CT‐2001‐00577 OPAMD. O. Solomeshch expresses her deep gratitude to the Center of Absorption in Science, Ministry of Absorption, Israel. We thank Covion for the PPV polymers used in this report.
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Snippet	The versatility of light‐emitting conjugated polymers in terms of optoelectronic properties is enormous, but tailoring of other essential properties has been... Abstract The versatility of light‐emitting conjugated polymers in terms of optoelectronic properties is enormous, but tailoring of other essential properties...
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SubjectTerms	Conjugated polymers Light-emitting diodes Light‐emitting diodes, organic Optoelectronic materials organic Patterning Poly(phenylene vinylene)s
Title	Electronic Formulations-Photopatterning of Luminescent Conjugated Polymers
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