Efficient energy transfer in organic thin films - implications for organic thin films - implications for organic lasers
Efficient energy transfer in organic thin films - implications for organic thin films - implications for organic lasers
We show that efficient nonradiative (Förster) energy transfer between solid films of two highly luminescent perylene dyes blended in a solid film can be used to control the amplified spontaneous emission (ASE) emitted from the films under pulsed optical excitation. Perylene orange, which acts as the donor, and perylene red, which is the acceptor, are doped into a host matrix of poly(methylmethacrylate) (PMMA). We report the ASE behavior as a function of acceptor concentration, and observe a sudden change in the spectral position of the ASE at an acceptor:donor concentration of 1:9 by weight. Below this concentration, emission is at 590 nm, which is characteristic of ASE from undoped perylene orange:PMMA blends, whereas films with higher acceptor concentrations produced ASE spectra centered at 620 nm, which is characteristic of perylene red:PMMA blends. In order to understand this behavior, the rate constant for energy transfer between the dyes was measured and found to be 5.0 ± 0.2 × 1011 s–1 (mol/dm3)–1. We used this to deduce an upper limit for the stimulated emission rate of 4.9 ± 0.2 × 108 s–1.
6367-6371
Sheridan, A.K.
3744de9e-5516-4842-bb36-852702ded40a
Buckley, A.R.
61249327-795c-4875-9d86-dea292614ba3
Fox, M.A.
0e9d78b8-fbc8-4ced-9c00-dd4019c67f62
Bacher, A.
839caa60-71b7-4055-b0a5-dad9e6ec60f4
Bradley, D.D.C.
8521937a-d8df-4a6d-aa43-44c11456f61f
Samuel, I.D.W.
b04e29f1-2ef5-41e7-b1ec-15bfda8fcebf
12 November 2002
Sheridan, A.K.
3744de9e-5516-4842-bb36-852702ded40a
Buckley, A.R.
61249327-795c-4875-9d86-dea292614ba3
Fox, M.A.
0e9d78b8-fbc8-4ced-9c00-dd4019c67f62
Bacher, A.
839caa60-71b7-4055-b0a5-dad9e6ec60f4
Bradley, D.D.C.
8521937a-d8df-4a6d-aa43-44c11456f61f
Samuel, I.D.W.
b04e29f1-2ef5-41e7-b1ec-15bfda8fcebf
Sheridan, A.K., Buckley, A.R., Fox, M.A., Bacher, A., Bradley, D.D.C. and Samuel, I.D.W.
(2002)
Efficient energy transfer in organic thin films - implications for organic thin films - implications for organic lasers.
Journal of Applied Physics, 92 (11), .
(doi:10.1063/1.1516270).
Abstract
We show that efficient nonradiative (Förster) energy transfer between solid films of two highly luminescent perylene dyes blended in a solid film can be used to control the amplified spontaneous emission (ASE) emitted from the films under pulsed optical excitation. Perylene orange, which acts as the donor, and perylene red, which is the acceptor, are doped into a host matrix of poly(methylmethacrylate) (PMMA). We report the ASE behavior as a function of acceptor concentration, and observe a sudden change in the spectral position of the ASE at an acceptor:donor concentration of 1:9 by weight. Below this concentration, emission is at 590 nm, which is characteristic of ASE from undoped perylene orange:PMMA blends, whereas films with higher acceptor concentrations produced ASE spectra centered at 620 nm, which is characteristic of perylene red:PMMA blends. In order to understand this behavior, the rate constant for energy transfer between the dyes was measured and found to be 5.0 ± 0.2 × 1011 s–1 (mol/dm3)–1. We used this to deduce an upper limit for the stimulated emission rate of 4.9 ± 0.2 × 108 s–1.
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Published date: 12 November 2002
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Local EPrints ID: 13751
URI: http://eprints.soton.ac.uk/id/eprint/13751
ISSN: 0021-8979
PURE UUID: 6696e485-74ec-4fcb-8bda-e7d1f4245b39
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Date deposited: 10 Jan 2005
Last modified: 15 Mar 2024 05:11
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Author:
A.K. Sheridan
Author:
A.R. Buckley
Author:
M.A. Fox
Author:
A. Bacher
Author:
D.D.C. Bradley
Author:
I.D.W. Samuel
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