Donal Bradley

Alternating and direct current characterization and photoinduced absorption studies of modified conjugated polymer thin films

Journal of Applied Physics AIP Publishing 95:11 (2004) 6138-6144

Authors:

SM Lipson, JN Coleman, A Drury, DF O’Brien, WJ Blau, AJ Cadby, PA Lane, DDC Bradley

Internal Field Screening in Polymer Light‐Emitting Diodes

Advanced Functional Materials Wiley 14:6 (2004) 562-570

Authors:

PJ Brewer, PA Lane, AJ deMello, DDC Bradley, JC deMello

Fluorescence lifetime imaging using a compact, low-cost, diode-based all-solid-state regenerative amplifier

Review of Scientific Instruments AIP Publishing 75:5 (2004) 1264-1267

Authors:

E Mendez, DS Elson, M Koeberg, C Dunsby, DDC Bradley, PMW French

Dispersive and non‐dispersive hole transport in fluorene‐arylamine copolymers

Macromolecular Symposia Wiley 212:1 (2004) 415-420

Authors:

Dmitry Poplavskyy, Jenny Nelson, Donal DC Bradley

Thin-film polymer light emitting diodes as integrated excitation sources for microscale capillary electrophoresis.

Lab on a chip 4:2 (2004) 136-140

Authors:

Joshua B Edel, Nigel P Beard, Oliver Hofmann, John C deMello, Donal DC Bradley, Andrew J deMello

Abstract:

We report the use of a thin-film polymer light emitting diode as an integrated excitation source for microfabricated capillary electrophoresis. The polyfluorene-based diode has a peak emission wavelength of 488 nm, an active area of 40 microm x 1000 microm and a thickness of similar 2 mm. The simple layer-by-layer deposition procedures used to fabricate the polymer component allow facile integration with planar chip-based systems. To demonstrate the efficacy of the approach, the polyfluorene diode is used as an excitation source for the detection of fluorescent dyes separated on-chip by electrophoresis. Using a conventional confocal detection system the integrated pLED is successfully used to detect fluorescein and 5-carboxyfluorescein at concentrations as low as 10(-6) M with a mass detection limit of 50 femtomoles. The drive voltages required to generate sufficient emission from the polymer diode device are as low as 3.7 V.