Donal Bradley

Random lasing in low molecular weight organic thin films

Applied Physics Letters AIP Publishing 99:4 (2011) 041114

Authors:

S Kéna-Cohen, PN Stavrinou, DDC Bradley, SA Maier

Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability

Journal of Applied Physics AIP Publishing 110:1 (2011) 014506

Authors:

James M Ball, Ricardo KM Bouwer, Floris B Kooistra, Jarvist M Frost, Yabing Qi, Ester Buchaca Domingo, Jeremy Smith, Dago M de Leeuw, Jan C Hummelen, Jenny Nelson, Antoine Kahn, Natalie Stingelin, Donal DC Bradley, Thomas D Anthopoulos

The nature of in-plane skeleton Raman modes of P3HT and their correlation to the degree of molecular order in P3HT:PCBM blend thin films.

Journal of the American Chemical Society 133:25 (2011) 9834-9843

Authors:

Wing C Tsoi, David T James, Jong Soo Kim, Patrick G Nicholson, Craig E Murphy, Donal DC Bradley, Jenny Nelson, Ji-Seon Kim

Abstract:

The nature of main in-plane skeleton Raman modes (C=C and C-C stretch) of poly(3-hexylthiophene) (P3HT) in pristine and its blend thin films with [6,6]-phenyl-C(61)-butyric acid methyl ester (PCBM) is studied by resonant and nonresonant Raman spectroscopy and Raman simulations. Under resonant conditions, the ordered phase of P3HT with respect to its disordered phase is identified by (a) a large shift in the C=C mode peak position to lower wavenumber (~21 cm(-1) shift), (b) a narrower fwhm of the C=C mode (~9 cm(-1) narrower), (c) a larger intensity of the C-C mode relative to the C=C mode (~56% larger), and (d) a very small Raman dispersion (~5 cm(-1)) of the C=C mode. The behavior of the C=C and C-C modes of the ordered and disordered phases of P3HT can be explained in terms of different molecular conformations. The C=C mode of P3HT in P3HT:PCBM blend films can be reproduced by simple superposition of the two peaks observed in different phases of P3HT (ordered and disordered). We quantify the molecular order of P3HT after blending with PCBM and the subsequent thermal annealing to be 42 ± 5% and 94 ± 5% in terms of the fraction of ordered P3HT phase, respectively. The increased molecular order of P3HT in blends upon annealing correlates well with enhanced device performance (J(SC), -4.79 to -8.72 mA/cm(2) and PCE, 1.07% to 3.39%). We demonstrate that Raman spectroscopy (particularly under resonant conditions) is a simple and powerful technique to study molecular order of conjugated polymers and their blend films.

The role of alkane dithiols in controlling polymer crystallization in small band gap polymer:Fullerene solar cells

Journal of Polymer Science Part B Polymer Physics Wiley 49:10 (2011) 717-724

Authors:

Tiziano Agostinelli, Toby AM Ferenczi, E Pires, Samuel Foster, Andrea Maurano, Christian Müller, Amy Ballantyne, Mark Hampton, Samuele Lilliu, Mariano Campoy‐Quiles, Hamed Azimi, Mauro Morana, Donal DC Bradley, James Durrant, J Emyr Macdonald, Natalie Stingelin, Jenny Nelson

Real‐Time Investigation of Crystallization and Phase‐Segregation Dynamics in P3HT:PCBM Solar Cells During Thermal Annealing

Advanced Functional Materials Wiley 21:9 (2011) 1701-1708

Authors:

Tiziano Agostinelli, Samuele Lilliu, John G Labram, Mariano Campoy‐Quiles, Mark Hampton, Ellis Pires, Jonathan Rawle, Oier Bikondoa, Donal DC Bradley, Thomas D Anthopoulos, Jenny Nelson, J Emyr Macdonald