Donal Bradley

Temperature and field dependence of hole mobility in poly(9,9-dioctylfluorene)

Physical Review B American Physical Society (APS) 73:23 (2006) 235201

Authors:

T Kreouzis, D Poplavskyy, SM Tuladhar, M Campoy-Quiles, J Nelson, AJ Campbell, DDC Bradley

Influence of carrier injection on the electromodulation response of trap-rich polymer light-emitting diodes

Journal of Applied Physics AIP Publishing 99:11 (2006) 114502

Authors:

PJ Brewer, AJ deMello, JC deMello, PA Lane, DDC Bradley, R Fletcher, J O’Brien

Low Threshold Blue Conjugated Polymer DFB Lasers

Institute of Electrical and Electronics Engineers (IEEE) (2006) 1-2

Authors:

C Karnutsch, V Haug, C Gaertner, U Lemmer, T Farrel, B Nehls, U Scherf, J Wang, T Weimann, G Heliotis, C Pflumm, J deMello, DDC Bradley

Hybrid polymer/zinc oxide photovoltaic devices with vertically oriented ZnO nanorods and an amphiphilic molecular interface layer.

The journal of physical chemistry. B 110:15 (2006) 7635-7639

Authors:

Punniamoorthy Ravirajan, Ana M Peiró, Mohammad K Nazeeruddin, Michael Graetzel, Donal DC Bradley, James R Durrant, Jenny Nelson

Abstract:

We report on the effect of nanoparticle morphology and interfacial modification on the performance of hybrid polymer/zinc oxide photovoltaic devices. We compare structures consisting of poly-3-hexylthiophene (P3HT) polymer in contact with three different types of ZnO layer: a flat ZnO backing layer alone; vertically aligned ZnO nanorods on a ZnO backing layer; and ZnO nanoparticles on a ZnO backing layer. We use scanning electron microscopy, steady state and transient absorption spectroscopies, and photovoltaic device measurements to study the morphology, charge separation, recombination behavior and device performance of the three types of structures. We find that charge recombination in the structures containing vertically aligned ZnO nanorods is remarkably slow, with a half-life of several milliseconds, over 2 orders of magnitude slower than that for randomly oriented ZnO nanoparticles. A photovoltaic device based on the nanorod structure that has been treated with an amphiphilic dye before deposition of the P3HT polymer yields a power conversion efficiency over four times greater than that for a similar device based on the nanoparticle structure. The best ZnO nanorod:P3HT device yields a short circuit current density of 2 mAcm(-2) under AM1.5 illumination (100 mW cm(-2)) and a peak external quantum efficiency over 14%, resulting in a power conversion efficiency of 0.20%.

A strong regioregularity effect in self-organizing conjugated polymer films and high-efficiency polythiophene:fullerene solar cells

Nature Materials Springer Nature 5:3 (2006) 197-203

Authors:

Youngkyoo Kim, Steffan Cook, Sachetan M Tuladhar, Stelios A Choulis, Jenny Nelson, James R Durrant, Donal DC Bradley, Mark Giles, Iain McCulloch, Chang-Sik Ha, Moonhor Ree