Towards room temperature processed and completely flexible organic photovoltaic devices

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Towards room temperature processed and completely flexible organic photovoltaic devices

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Technical Metadata

Descriptive

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Title

Towards room temperature processed and completely flexible organic photovoltaic devices

Name (ID = NAME001); (type = personal)

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Miller

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Steven Lawrence

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Steven Lawrence Miller

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author

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Chhowalla

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Manish

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Manish Chhowalla

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Du Pasquier

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Aurelien Du Pasquier

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Birnie

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Dunbar

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Dunbar Birnie

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Klein

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Lisa

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Lisa C. Klein

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Jing

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Jing Li

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Rutgers University

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Graduate School - New Brunswick

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Text

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theses

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2008

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2008-05

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English

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electronic

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xvi, 162 pages

Abstract

This thesis presents the work towards identifying and developing materials and processes necessary to fabricate inexpensive, flexible and room temperature processed organic photovoltaic devices (OPVs). A method for rapidly fabricating and characterizing OPVs utilizing gallium-indium eutectic (liquid at room temperature) to replace thermally evaporated aluminum and a simple halogen light as a replacement for a solar simulator is described. Poly(3-hexylthiophene):phenyl-C61-butyric acid methyl ester (P3HT:PCBM) bulk heterojunctions were utilized for absorbing light and generating charge carriers. P3HT:PCBM OPVs using traditional transparent and conducting materials for carrier collection such as indium tin oxide (ITO) coated glass and fabrication processes such as thermal annealing were optimized. Thermal annealing is an integral step in developing the morphology necessary to create high efficiency OPVs, but is detrimental to many flexible (plastic) substrates. In order to overcome this limitation, a technique utilizing room temperature solvent vapor annealing for improving OPV efficiency was developed and the mechanisms leading to such improvement are elucidated through in situ and ex situ characterization. The analyses revealed that solvent vapor annealing at room temperature leads to comparable changes in morphology and charge transport as thermal annealing.
ITO is expensive and substantially loses conductivity when flexed. As an alternative, single walled carbon nanotube (SWNT) thin film as a transparent and conducting material was investigated. Using a solution of dispersed SWNTs, networks with densities just above the metallic percolation threshold were deposited with conductivity and transmission properties comparable to ITO. Additionally, they are flexible without a loss in conductivity with bending cycles. OPVs with SWNT thin films as the hole collecting electrodes showed better performance than ITO reference cells. The mechanism for the better performance was attributed to the three dimensional interface between the P3HT:PCBM and the SWNTs which allows efficient capture of holes. The presence of birefringence in SWNT thin films and its influence on OPV properties as a function of angle of illumination is also described. The results presented in this thesis should lead to a better understanding of the P3HT:PCBM system and demonstrate promising solutions towards the realization of flexible, room temperature processed and inexpensive OPVs.

Note (type = degree)

Ph.D.

Note (type = bibliography)

Includes bibliographical references.

Subject (ID = SUBJ1); (authority = RUETD)

Topic

Ceramic and Materials Science and Engineering

Subject (ID = SUBJ2); (authority = ETD-LCSH)

Topic

Photovoltaic cells

Subject (ID = SUBJ3); (authority = ETD-LCSH)

Topic

Organic semiconductors

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Title

Graduate School - New Brunswick Electronic Theses and Dissertations

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rucore19991600001

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http://hdl.rutgers.edu/1782.2/rucore10001600001.ETD.17350

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ETD_754

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Identifier (type = doi)

doi:10.7282/T3416XDH

Genre (authority = ExL-Esploro)

ETD doctoral

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Rights

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The author owns the copyright to this work.

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Open

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Steven Miller

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Rutgers University. Graduate School - New Brunswick

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Non-exclusive ETD license

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Author Agreement License

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I hereby grant to the Rutgers University Libraries and to my school the non-exclusive right to archive, reproduce and distribute my thesis or dissertation, in whole or in part, and/or my abstract, in whole or in part, in and from an electronic format, subject to the release date subsequently stipulated in this submittal form and approved by my school. I represent and stipulate that the thesis or dissertation and its abstract are my original work, that they do not infringe or violate any rights of others, and that I make these grants as the sole owner of the rights to my thesis or dissertation and its abstract. I represent that I have obtained written permissions, when necessary, from the owner(s) of each third party copyrighted matter to be included in my thesis or dissertation and will supply copies of such upon request by my school. I acknowledge that RU ETD and my school will not distribute my thesis or dissertation or its abstract if, in their reasonable judgment, they believe all such rights have not been secured. I acknowledge that I retain ownership rights to the copyright of my work. I also retain the right to use all or part of this thesis or dissertation in future works, such as articles or books.

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