Determination of fullerene scattering length density: A critical parameter for understanding the fullerene distribution in bulk heterojunction organic photovoltaic devices

Andrew J. Clulow; Ardalan Armin; Kwan H. Lee; Ajay K. Pandey; Chen Tao; Marappan Velusamy; Michael James; Andrew Nelson; Paul L. Burn; Ian R. Gentle; Paul Meredith

doi:10.1021/la403951j

Determination of fullerene scattering length density: A critical parameter for understanding the fullerene distribution in bulk heterojunction organic photovoltaic devices

Andrew J. Clulow, Ardalan Armin, Kwan H. Lee, Ajay K. Pandey, Chen Tao, Marappan Velusamy, Michael James, Andrew Nelson, Paul L. Burn, Ian R. Gentle, Paul Meredith

Research output: Contribution to journal › Article › Research › peer-review

21 Citations (Scopus)

Abstract

Fullerene derivatives are commonly used as electron acceptors in combination with (macro)molecular electron donors in bulk heterojunction (BHJ) organic photovoltaic (OPV) devices. Understanding the BHJ structure at different electron donor/acceptor ratios is critical to the continued improvement and development of OPVs. The high neutron scattering length densities (SLDs) of the fullerenes provide effective contrast for probing the distribution of the fullerene within the blend in a nondestructive way. However, recent neutron scattering studies on BHJ films have reported a wide range of SLDs ((3.6-4.4) × 10^-6 Å^-2) for the fullerenes 60-PCBM and 70-PCBM, leading to differing interpretations of their distribution in thin films. In this article, we describe an approach for determining more precisely the scattering length densities of the fullerenes within a polymer matrix in order to accurately quantify their distribution within the active layers of OPV devices by neutron scattering techniques.

Original language	English
Pages (from-to)	1410-1415
Number of pages	6
Journal	Langmuir
Volume	30
Issue number	5
DOIs	https://doi.org/10.1021/la403951j
Publication status	Published - 11 Feb 2014
Externally published	Yes

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Clulow, A. J., Armin, A., Lee, K. H., Pandey, A. K., Tao, C., Velusamy, M., James, M., Nelson, A., Burn, P. L., Gentle, I. R., & Meredith, P. (2014). Determination of fullerene scattering length density: A critical parameter for understanding the fullerene distribution in bulk heterojunction organic photovoltaic devices. Langmuir, 30(5), 1410-1415. https://doi.org/10.1021/la403951j

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title = "Determination of fullerene scattering length density: A critical parameter for understanding the fullerene distribution in bulk heterojunction organic photovoltaic devices",

abstract = "Fullerene derivatives are commonly used as electron acceptors in combination with (macro)molecular electron donors in bulk heterojunction (BHJ) organic photovoltaic (OPV) devices. Understanding the BHJ structure at different electron donor/acceptor ratios is critical to the continued improvement and development of OPVs. The high neutron scattering length densities (SLDs) of the fullerenes provide effective contrast for probing the distribution of the fullerene within the blend in a nondestructive way. However, recent neutron scattering studies on BHJ films have reported a wide range of SLDs ((3.6-4.4) × 10-6 {\AA}-2) for the fullerenes 60-PCBM and 70-PCBM, leading to differing interpretations of their distribution in thin films. In this article, we describe an approach for determining more precisely the scattering length densities of the fullerenes within a polymer matrix in order to accurately quantify their distribution within the active layers of OPV devices by neutron scattering techniques.",

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Clulow, AJ, Armin, A, Lee, KH, Pandey, AK, Tao, C, Velusamy, M, James, M, Nelson, A, Burn, PL, Gentle, IR & Meredith, P 2014, 'Determination of fullerene scattering length density: A critical parameter for understanding the fullerene distribution in bulk heterojunction organic photovoltaic devices', Langmuir, vol. 30, no. 5, pp. 1410-1415. https://doi.org/10.1021/la403951j

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T1 - Determination of fullerene scattering length density

T2 - A critical parameter for understanding the fullerene distribution in bulk heterojunction organic photovoltaic devices

AU - Clulow, Andrew J.

AU - Armin, Ardalan

AU - Lee, Kwan H.

AU - Pandey, Ajay K.

AU - Tao, Chen

AU - Velusamy, Marappan

AU - James, Michael

AU - Nelson, Andrew

AU - Burn, Paul L.

AU - Gentle, Ian R.

AU - Meredith, Paul

PY - 2014/2/11

Y1 - 2014/2/11

N2 - Fullerene derivatives are commonly used as electron acceptors in combination with (macro)molecular electron donors in bulk heterojunction (BHJ) organic photovoltaic (OPV) devices. Understanding the BHJ structure at different electron donor/acceptor ratios is critical to the continued improvement and development of OPVs. The high neutron scattering length densities (SLDs) of the fullerenes provide effective contrast for probing the distribution of the fullerene within the blend in a nondestructive way. However, recent neutron scattering studies on BHJ films have reported a wide range of SLDs ((3.6-4.4) × 10-6 Å-2) for the fullerenes 60-PCBM and 70-PCBM, leading to differing interpretations of their distribution in thin films. In this article, we describe an approach for determining more precisely the scattering length densities of the fullerenes within a polymer matrix in order to accurately quantify their distribution within the active layers of OPV devices by neutron scattering techniques.

AB - Fullerene derivatives are commonly used as electron acceptors in combination with (macro)molecular electron donors in bulk heterojunction (BHJ) organic photovoltaic (OPV) devices. Understanding the BHJ structure at different electron donor/acceptor ratios is critical to the continued improvement and development of OPVs. The high neutron scattering length densities (SLDs) of the fullerenes provide effective contrast for probing the distribution of the fullerene within the blend in a nondestructive way. However, recent neutron scattering studies on BHJ films have reported a wide range of SLDs ((3.6-4.4) × 10-6 Å-2) for the fullerenes 60-PCBM and 70-PCBM, leading to differing interpretations of their distribution in thin films. In this article, we describe an approach for determining more precisely the scattering length densities of the fullerenes within a polymer matrix in order to accurately quantify their distribution within the active layers of OPV devices by neutron scattering techniques.

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Determination of fullerene scattering length density: A critical parameter for understanding the fullerene distribution in bulk heterojunction organic photovoltaic devices

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