2009
DOI: 10.1021/ja808924f
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Ultrafast Intersystem Crossing and Spin Dynamics of Photoexcited Perylene-3,4:9,10-bis(dicarboximide) Covalently Linked to a Nitroxide Radical at Fixed Distances

Abstract: Time-resolved transient optical absorption and EPR (TREPR) spectroscopies are used to probe the interaction of the lowest excited singlet state of perylene-3,4:9,10-bis(dicarboximide) ((1*)PDI) with a stable tert-butylphenylnitroxide radical ((2)BPNO(*)) at specific distances and orientations. The (2)BPNO(*) radical is connected to the PDI with the nitroxide and imide nitrogen atoms either para (1) or meta (3) to one another, as well as through a second intervening p-phenylene spacer (2). Transient absorption … Show more

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Cited by 143 publications
(268 citation statements)
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“…The effective generation of high‐spin photoexcited states as well as the role of EISC were supported from the kinetic point of view by the studies carried out on systems constituted of perylene‐3,4:9,10‐bis(dicarboximide) (PDI) and nitroxide radicals (Figure ) . In this study, Wasielewski et al.…”
Section: Excited‐state Dynamics Of Non‐luminescent π‐Radicalsmentioning
confidence: 60%
“…The effective generation of high‐spin photoexcited states as well as the role of EISC were supported from the kinetic point of view by the studies carried out on systems constituted of perylene‐3,4:9,10‐bis(dicarboximide) (PDI) and nitroxide radicals (Figure ) . In this study, Wasielewski et al.…”
Section: Excited‐state Dynamics Of Non‐luminescent π‐Radicalsmentioning
confidence: 60%
“…That is to say, the electronic state of the entire molecule could be a doublet or a quartet state, and the chromophore could be in its singlet or triplet state. One of the most interesting aspects of these systems is that the originally electron‐spin‐forbidden S 1 →T 1 ISC process of the chromophore becomes an electron‐spin‐allowed D 2 →D 1 internal conversion process of the entire molecule, because of the same overall spin multiplicity . As a result, the ISC of the organic chromophore is enhanced; this is the so‐called radical‐enhanced intersystem crossing (EISC).…”
Section: Introductionmentioning
confidence: 72%
“…Furthermore, the CE mechanism can involve a photoexcited triplet or optically pumped electron spin order that is non-Boltzmann (much greater than thermo-equilibrated spin polarization), and the new polarization methods may be performed by linking a stable radical to a dye moiety (such as 14 in Fig. 1) that absorbs specific photons [150; 151; 152]. Because the electron spin polarization gradient between the excited dye and the stable radical is obtainable without microwaves, DNP without microwave irradiation is speculated.…”
Section: Paramagnetic Species For Prospective Photoexcited-dnpmentioning
confidence: 99%