Richard Beal scite author profile

Understanding the nanomorphology of polymer-based solar cells is key to improving device efficiencies. A detailed study of the changes in polymer solar cell morphology at the molecular level and in real time under process conditions is presented. Using low voltage, high resolution electron microscopy (LVHREM) we observe the mechanisms of PCBM-rich domain migration in real time and provide evidence for vertical segregation within the bulk heterojunction and increased crystallinity of both P3HT and PCBM. The results of the study highlights the fact that P3HT:PCBM bulk heterojunction morphology should be viewed within the framework of a four-phase, three-dimensional, nonequilibrium system.

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Direct Formation of PbS Nanorods in a Conjugated Polymer

Stavrinadis

Beal

Smith

et al. 2008

Advanced Materials

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Colloidal synthesis of lead oxide nanocrystals for photovoltaics

et al. 2010

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Multijunction Solar Cell Designs Using Silicon Bottom Subcell and Porous Silicon Compliant Membrane

Wilkins

Boucherif

Beal

et al. 2013

IEEE J. Photovoltaics

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Modeling down-conversion and down-shifting for photovoltaic applications

Gabr

Wheeldon

Beal

et al. 2012

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Richard Beal

The Molecular Structure of Polymer−Fullerene Composite Solar Cells and Its Influence on Device Performance

Direct Formation of PbS Nanorods in a Conjugated Polymer

Colloidal synthesis of lead oxide nanocrystals for photovoltaics

Multijunction Solar Cell Designs Using Silicon Bottom Subcell and Porous Silicon Compliant Membrane

Modeling down-conversion and down-shifting for photovoltaic applications

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