Self-assembly processes for organic LED transport layers and electrode passivation

J. E. Malinsky, W. Li, Q. Wang, J. Gui, H. Chou, Tobin J Marks, G. E. Jabbour, S. E. Shaheen, J. D. Anderson, P. Lee, A. G. Richter, B. Kippelen, P. Dutta, N. Peyghambarian, N. Armstrong

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

This contribution describes the use of self-limiting siloxane chemisorption processes to self-assemble building blocks for the modification of vacuum-deposited organic LED (OLED) devices. One approach consists of the use of self-assembling OLED hole transport materials for application in hybrid self-assembled + vapor deposited two-layer devices. Another approach involves the application of self-limiting, chemisorptive self-assembly techniques to introduce thin dielectric films between the anode and hole transport layer of a vapor deposited two-layer OLED device.

Original languageEnglish
Title of host publicationMaterials Research Society Symposium - Proceedings
PublisherMaterials Research Society
Pages201-209
Number of pages9
Volume561
Publication statusPublished - 1999
EventProceedings of the 1999 MRS Spring Meeting - Symposium on Organic Nonlinear Optical Materials and Devices - San Francisco, CA, USA
Duration: Apr 6 1999Apr 9 1999

Other

OtherProceedings of the 1999 MRS Spring Meeting - Symposium on Organic Nonlinear Optical Materials and Devices
CitySan Francisco, CA, USA
Period4/6/994/9/99

Fingerprint

Passivation
Self assembly
Light emitting diodes
Electrodes
Vapors
Siloxanes
Dielectric films
Chemisorption
Anodes
Vacuum
Thin films

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials

Cite this

Malinsky, J. E., Li, W., Wang, Q., Gui, J., Chou, H., Marks, T. J., ... Armstrong, N. (1999). Self-assembly processes for organic LED transport layers and electrode passivation. In Materials Research Society Symposium - Proceedings (Vol. 561, pp. 201-209). Materials Research Society.

Self-assembly processes for organic LED transport layers and electrode passivation. / Malinsky, J. E.; Li, W.; Wang, Q.; Gui, J.; Chou, H.; Marks, Tobin J; Jabbour, G. E.; Shaheen, S. E.; Anderson, J. D.; Lee, P.; Richter, A. G.; Kippelen, B.; Dutta, P.; Peyghambarian, N.; Armstrong, N.

Materials Research Society Symposium - Proceedings. Vol. 561 Materials Research Society, 1999. p. 201-209.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Malinsky, JE, Li, W, Wang, Q, Gui, J, Chou, H, Marks, TJ, Jabbour, GE, Shaheen, SE, Anderson, JD, Lee, P, Richter, AG, Kippelen, B, Dutta, P, Peyghambarian, N & Armstrong, N 1999, Self-assembly processes for organic LED transport layers and electrode passivation. in Materials Research Society Symposium - Proceedings. vol. 561, Materials Research Society, pp. 201-209, Proceedings of the 1999 MRS Spring Meeting - Symposium on Organic Nonlinear Optical Materials and Devices, San Francisco, CA, USA, 4/6/99.
Malinsky JE, Li W, Wang Q, Gui J, Chou H, Marks TJ et al. Self-assembly processes for organic LED transport layers and electrode passivation. In Materials Research Society Symposium - Proceedings. Vol. 561. Materials Research Society. 1999. p. 201-209
Malinsky, J. E. ; Li, W. ; Wang, Q. ; Gui, J. ; Chou, H. ; Marks, Tobin J ; Jabbour, G. E. ; Shaheen, S. E. ; Anderson, J. D. ; Lee, P. ; Richter, A. G. ; Kippelen, B. ; Dutta, P. ; Peyghambarian, N. ; Armstrong, N. / Self-assembly processes for organic LED transport layers and electrode passivation. Materials Research Society Symposium - Proceedings. Vol. 561 Materials Research Society, 1999. pp. 201-209
@inproceedings{28b069d6b4454e5fb625c7e0d9ae51e8,
title = "Self-assembly processes for organic LED transport layers and electrode passivation",
abstract = "This contribution describes the use of self-limiting siloxane chemisorption processes to self-assemble building blocks for the modification of vacuum-deposited organic LED (OLED) devices. One approach consists of the use of self-assembling OLED hole transport materials for application in hybrid self-assembled + vapor deposited two-layer devices. Another approach involves the application of self-limiting, chemisorptive self-assembly techniques to introduce thin dielectric films between the anode and hole transport layer of a vapor deposited two-layer OLED device.",
author = "Malinsky, {J. E.} and W. Li and Q. Wang and J. Gui and H. Chou and Marks, {Tobin J} and Jabbour, {G. E.} and Shaheen, {S. E.} and Anderson, {J. D.} and P. Lee and Richter, {A. G.} and B. Kippelen and P. Dutta and N. Peyghambarian and N. Armstrong",
year = "1999",
language = "English",
volume = "561",
pages = "201--209",
booktitle = "Materials Research Society Symposium - Proceedings",
publisher = "Materials Research Society",

}

TY - GEN

T1 - Self-assembly processes for organic LED transport layers and electrode passivation

AU - Malinsky, J. E.

AU - Li, W.

AU - Wang, Q.

AU - Gui, J.

AU - Chou, H.

AU - Marks, Tobin J

AU - Jabbour, G. E.

AU - Shaheen, S. E.

AU - Anderson, J. D.

AU - Lee, P.

AU - Richter, A. G.

AU - Kippelen, B.

AU - Dutta, P.

AU - Peyghambarian, N.

AU - Armstrong, N.

PY - 1999

Y1 - 1999

N2 - This contribution describes the use of self-limiting siloxane chemisorption processes to self-assemble building blocks for the modification of vacuum-deposited organic LED (OLED) devices. One approach consists of the use of self-assembling OLED hole transport materials for application in hybrid self-assembled + vapor deposited two-layer devices. Another approach involves the application of self-limiting, chemisorptive self-assembly techniques to introduce thin dielectric films between the anode and hole transport layer of a vapor deposited two-layer OLED device.

AB - This contribution describes the use of self-limiting siloxane chemisorption processes to self-assemble building blocks for the modification of vacuum-deposited organic LED (OLED) devices. One approach consists of the use of self-assembling OLED hole transport materials for application in hybrid self-assembled + vapor deposited two-layer devices. Another approach involves the application of self-limiting, chemisorptive self-assembly techniques to introduce thin dielectric films between the anode and hole transport layer of a vapor deposited two-layer OLED device.

UR - http://www.scopus.com/inward/record.url?scp=0033355052&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0033355052&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:0033355052

VL - 561

SP - 201

EP - 209

BT - Materials Research Society Symposium - Proceedings

PB - Materials Research Society

ER -