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Doping poly[2-methoxy-5-(2'-ethylhexyloxy)-1,4-phenylenevinylene] with PbSe nanoparticles or fullerenes

D K Chambers et al 2008 J. Phys.: Condens. Matter 20 382202 (4pp)   doi: 10.1088/0953-8984/20/38/382202  Help

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D K Chambers1, Z Zhang2, F Khatkhatay1, S Karanam1, O Kizilkaya3, Y B Losovyj3 and S Zivanovic Selmic1
1 Institute for Micromanufacturing, Louisiana Tech University, 911 Hergot Avenue, Ruston, LA 71270, USA
2 Department of Physics and Astronomy, Nebraska Center for Materials and Nanoscience, University of Nebraska, 116 Brace Laboratory, PO Box 880111, Lincoln, NE 68588-0111, USA
3 Center for Advanced Microstructures and Devices, Louisiana State University, 6980 Jefferson Highway, Baton Rouge, LA 70806, USA
E-mail: sselmic@latech.edu

Abstract. The positions of the molecular orbitals of the conjugated semiconducting polymer, poly[2-methoxy-5-(2'-ethylhexyloxy)-1,4-phenylenevinylene] (MEH-PPV), relative to the Fermi level, shift when lead selenide (PbSe) quantum dots or the fullerene based molecule [(6)]-1-(3-(methoxycarbonyl)propyl)-[(5)]-1-phenyl-[5,6]-C61, known as PCBM, are dispersed in the polymer host. This is evident from the consistent shifts of occupied molecular orbitals and the valence band edge to greater binding energies and a decrease in density of states near the Fermi level, as probed by photoemission. In the case of PbSe nanocrystal quantum dots, far smaller binding energy shifts were observed. This behavior seems more characteristic of a charge donor, though PbSe and PCBM should act as charge acceptors. In the case of both dopants, what doping does exist occurs only with small concentrations (<10%). MEH-PPV doped with a large-Z semiconducting material, such as PbSe nanocrystal quantum dots, is a candidate for use as a good gamma radiation detector.

Print publication: Issue 38 (24 September 2008)
Received 1 August 2008, in final form 4 August 2008
Published 21 August 2008

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