Transient absorption spectra of triplet states and charge carriers of conjugated polymers

Miguel, Maria G.; Monkman, Andrew P.; Hamblett, I.; Navaratnam, S.

doi:10.1016/s0022-2860(00)00787-0

Cited by 18 publications

(19 citation statements)

References 47 publications

(55 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The triplet-triplet absorption of Ph-LPPP shows an indefinite vibronic structure, which is probably indicated for the coupling of the C-C stretch modes [16] of the conjugated backbone. The PIA of Ph-LPPP is very similar to what have been reported for other conjugated polymers [17,18] at low temperatures using the same technique. Triplet state has more localized character due to restrictions of transition from singlet to triplet state due to spin conservation [19,20].…”

Section: Resultssupporting

confidence: 85%

Photomodulation spectrum of phenyl-substituted ladder-type poly(para-phenylene) under hydrostatic pressure

Hsu

Yang

2015

J Polym Res

View full text Add to dashboard Cite

The pressure-dependence photomodulation spectrum of a semiconducting conjugated polymer, phenylsubstituted ladder-type poly(para-phenylene) (Ph-LPPP) with trace-concentrations of metallic impurities, was studied. The so called photo-induced absorption gave the information about the triplet-triplet (TT) transitions and bleaching (PB) of the singlet state in this material. Planarization, therefore, stronger interchain interaction, under pressure was observed. The photo-modulation spectra coupled with Raman scattering and photoluminescence spectra of Ph-LPPP revealed the influence of electronic structure due to pressure on singlet and triplet excitons. As a result, the localized character of triplet state could be changed. The lifetimes of the triplet excitions and the photobleaching were also observed. It was found that the triplet state was less stable than the singlet state.

show abstract

Section: Resultssupporting

confidence: 85%

Photomodulation spectrum of phenyl-substituted ladder-type poly(para-phenylene) under hydrostatic pressure

Hsu

Yang

2015

J Polym Res

View full text Add to dashboard Cite

show abstract

“…We have previously reported spectra and energies of the triplet states of these polymers generated in this way [26,27,31,41]. The technique has also been used to study some p-phenylenevinylene oligomers [51] and broken conjugation polymers [52].…”

Section: Pulse Radiolysis/energy Transfermentioning

confidence: 99%

“…Knowledge of the formation and decay pathways of these triplets is therefore important for a full understanding of the electroluminescence behaviour of conjugated organic polymers. We report results of polymer triplet state dynamics in dilute solution, under conditions where they can be considered to be isolated chains [31], i.e., where there are no interchain interactions, and where the time between collisions of two polymer molecules is longer than the lifetimes of the excited states being studied. Preparation of triplet states by both photoexcitation and energy transfer will be considered.…”

Section: Introductionmentioning

confidence: 99%

Triplet state dynamics on isolated conjugated polymer chains

et al. 2002

Self Cite

View full text Add to dashboard Cite

Triplet state behaviour has been studied with several conjugated polymers in dilute benzene solutions by flash photolysis, photoacoustic calorimetry (PAC) and pulse radiolysis/energy transfer. With polythiophenes and the ladder poly(p-phenylene) MeLPPP, singlet-triplet intersystem crossing (ISC) is relatively efficient. In contrast, it is inefficient with poly(p-phenylenevinylene)s (PPVs) and polyfluorene, while with cyano-substituted PPV, there is no evidence for any long-lived triplet state. Energy transfer from triplet biphenyl to MEH-PPV is diffusion controlled and triplet state lifetimes are typically tens or hundreds of ls. All the triplet states are quenched by molecular oxygen, leading to formation of singlet oxygen with yields which are generally close to those for triplet formation. With pulse radiolysis at high doses, it is possible to have more than one triplet state per polymer chain. This can lead to delayed fluorescence via intrachain triplet-triplet annihilation. Kinetic analysis of this shows slow movement of triplets by hopping along the chain.

show abstract

“…18 It has also been demonstrated, however, that such optical studies may be complicated by the fact that different types of excitons and charges may have very similar spectral signatures. [18][19][20][21][22] THz time-domain spectroscopy ͑THz-TDS͒ therefore ideally complements optical studies, as it allows one to directly probe both exciton and free charge species simultaneously: it is sensitive to the real and imaginary components of frequency-dependent ͑0.2-1.5 THz͒ photoconductivity and, as such, can monitor free and bound charges on a subpicosecond timescale. Our initial THz-TDS studies 5 of semiconducting polymers have indicated that excitons are the primary photoexcitation product, while only a small number of free charges are formed on ultrafast times, most likely from dissociation of "hot" excitons.…”

Section: Introductionmentioning

confidence: 99%

Interchain effects in the ultrafast photophysics of a semiconducting polymer:THztime-domain spectroscopy of thin films and isolated chains in solution

et al. 2005

View full text Add to dashboard Cite

We compare the generation and decay dynamics of charges and excitons in a model polymer semiconductor ͑MEH-PPV͒ in solution and drop-cast thin films, by recording the sub-ps transient complex conductivity using THz time-domain spectroscopy. The results show that the quantum efficiency of charge generation is two orders of magnitude smaller in solution ͑ϳ10−5 ͒ than in the solid film ͑ϳ10 −3 ͒. The proximity of neighboring chains in the films apparently facilitates ͑hot͒ exciton dissociation, presumably by allowing the electron and hole to separate on different polymer strands. For both samples, photoexcitation leads to the predominant formation of bound charge pairs ͑excitons͒ that can be detected through their polarizability. Surprisingly, the polarizability per absorbed photon is a factor of 3 larger in solution than in the film, suggesting that interchain interactions in the film do not result in a substantial delocalization of the exciton wave function.

show abstract

Transient absorption spectra of triplet states and charge carriers of conjugated polymers

Cited by 18 publications

References 47 publications

Photomodulation spectrum of phenyl-substituted ladder-type poly(para-phenylene) under hydrostatic pressure

Photomodulation spectrum of phenyl-substituted ladder-type poly(para-phenylene) under hydrostatic pressure

Triplet state dynamics on isolated conjugated polymer chains

Interchain effects in the ultrafast photophysics of a semiconducting polymer:THztime-domain spectroscopy of thin films and isolated chains in solution

Contact Info

Product

Resources

About