Ultrafast optical studies of ordered poly(3-thienylene-vinylene) films

Olejnik, Ella; Pandit, Bill; Basel, Tek; Lafalce, Evan; Sheng, Chuanxiang; Zhang, Chuang; Jiang, Xiran; Vardeny, Z. Valy

doi:10.1103/physrevb.85.235201

Cited by 27 publications

(33 citation statements)

References 22 publications

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“…These may potentially be related to the coherent phonon oscillations within the Ag mirror, 63 but we additionally note that photoexcitation has been reported to create localized strain in thin films, resulting in propagating strain waves that manifest as time-domain oscillations in the transmission signal. [81][82][83][84] These effects can be difficult to detect when superimposed with bulk electronic signatures. However, in a metallic BODIPY-R microcavity we can well describe the principal decay dynamics of the prominent transient bands with a global multi-exponential fit, and the residual shows evidence for a weak, slowly oscillating component (Figure 4b-d).…”

Section: Resultsmentioning

confidence: 99%

Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Renken

Pandya

Georgiou

et al. 2021

The Journal of Chemical Physics

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Strong light-matter coupling to form exciton-and vibropolaritons is increasingly touted as a powerful tool to alter the fundamental properties of organic materials. It is proposed that these states and their facile tunability can be used to rewrite molecular potential energy landscapes and redirect photophysical pathways, with applications from catalysis to electronic devices. Crucial to their photophysical properties is the exchange of energy between coherent, bright polaritons and incoherent dark states. One of the most potent tools to explore this interplay is transient absorption/reflectance spectroscopy. Previous studies have revealed unexpectedly long lifetimes of the coherent polariton states, for which there is no theoretical explanation. Applying these transient methods to a series of strong-coupled organic microcavities, we recover similar long-lived spectral effects. Based on transfer-matrix modelling of the transient experiment, we find that virtually the entire photoresponse results from photoexcitation effects other than the generation of polariton states. Our results suggest that the complex optical properties of polaritonic systems make them especially prone to misleading optical signatures, and that more challenging high-time-resolution measurements on high-quality microcavities are necessary to uniquely distinguish the coherent polariton dynamics.

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Section: Resultsmentioning

confidence: 99%

Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Renken

Pandya

Georgiou

et al. 2021

The Journal of Chemical Physics

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“…Here, we investigate the roles of mode-specific vibrational displacements on triplet formation dynamics in an alkyl-substituted trans -thienylene–vinylene dimer (dTV; see Scheme ), a small-molecule analogue of poly(thienylene–vinylenes) (PTV). PTV photophysics, though well studied, have remained controversial largely due to the short-lived nature of their excited states. − For example, dipole-forbidden midgap excited states (i.e., 2A g ) have been invoked to explain rapid excited-state relaxation and nonemissive behavior commonly observed in these systems. ,, This model was next amended by Musser et al to include a singlet fission process within ∼45 fs followed by relaxation of the triplet pair to the 2A g state and subsequent decay to the ground electronic state . However, Hu et al demonstrated that fluorescence emission could be restored by dispersing a PTV derivative in a solid inert host, causing aggregates to dissociate .…”

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confidence: 99%

“…12−14 For example, dipoleforbidden midgap excited states (i.e., 2A g ) have been invoked to explain rapid excited-state relaxation and nonemissive behavior commonly observed in these systems. 12,15,16 This model was next amended by Musser et al to include a singlet fission process within ∼45 fs followed by relaxation of the triplet pair to the 2A g state and subsequent decay to the ground electronic state. 14 However, Hu et al demonstrated that fluorescence emission could be restored by dispersing a PTV derivative in a solid inert host, causing aggregates to dissociate.…”

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confidence: 99%

Large Excited-State Conformational Displacements Expedite Triplet Formation in a Small Conjugated Oligomer

Datko

Livshits

Zhang

et al. 2019

J. Phys. Chem. Lett.

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Intersystem crossing in conjugated organic molecules is most conveniently viewed from pure electronic perspectives; yet, vibrational displacements may often drive these transitions. We investigate an alkyl-substituted thienylene− vinylene dimer (dTV) displaying efficient triplet formation. Steady-state electronic and Raman spectra display large Stokes shifts (∼4000 cm −1 ) involving high-frequency skeletal symmetric stretching modes (∼900−1600 cm −1 ) in addition to large displacements of low-frequency torsional motions (∼300−340 cm −1 ). Transient absorption spectroscopy reveals the emergence of distorted singlet (S 1 ) and triplet signatures following initial vibrational relaxation dynamics that dominate spectral dynamics on time scales > 100 ps, with the latter persisting on time scales up to ca. 7 μs. Potential energy surfaces calculated along the dominant displaced out-of-plane torsional mode reveal shallow energy barriers for entering the triplet manifold from S 1 . We propose that dTV is a good model system for understanding vibrational contributions to intersystem crossing events in related polymer systems.

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“…28−30 Despite morphology controllability issues, 31 PTVs caused by ultrafast nonradiative decay have been ascribed as the main causes for low OSC performance. 32 Thus, in order for PTVs to be more applicable for OSCs and other optoelectronic applications in general, systematic structural modifications, especially those that perturb the main-chain electronic structures, optimization in physical/electronic properties and, most importantly, better understanding on structure−property relationships are necessary. All of these aspects have been explored to a very limited extent mainly due to the limitations in PTV structural variations by conventional synthetic procedures.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Structural variations in these PTVs are simply alterations of alkyl chain lengths and topologies (linear vs branched), resulting in similar electronic properties among the existing examples. Applications of these soluble PTVs in organic electronic devices have been scarce, among which several examples of applying PTVs in OSCs have been described but only low to moderate device efficiencies, typically less than 1%, have been obtained. − Despite morphology controllability issues, extremely short exciton lifetimes in PTVs caused by ultrafast nonradiative decay have been ascribed as the main causes for low OSC performance . Thus, in order for PTVs to be more applicable for OSCs and other optoelectronic applications in general, systematic structural modifications, especially those that perturb the main-chain electronic structures, optimization in physical/electronic properties and, most importantly, better understanding on structure–property relationships are necessary.…”

Section: Introductionmentioning

confidence: 99%

Structurally Diverse Poly(thienylene vinylene)s (PTVs) with Systematically Tunable Properties through Acyclic Diene Metathesis (ADMET) and Postpolymerization Modification

Zhang

Qin

2016

Macromolecules

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Poly(thienylene vinylene)s (PTVs) are a unique class of low bandgap conjugated polymers that have received relatively little attention in organic electronic applications due to the limitations in conventional synthetic methodologies that are not capable to produce PTV structures beyond the rudimentary forms. We report here facile synthetic methods, combining acyclic diene metathesis (ADMET) and postpolymerization modification reactions, toward a series of structurally diverse PTVs. Specifically, halogen substituents including F, Cl, Br, and I, and conjugated thienyl groups bearing different substituents, have been installed onto every thiophene unit along the PTV backbones. While halogen substitution lowers both the HOMO and LUMO energy levels of the polymers, the overall optical properties are similar to the conventional unsubstituted PTVs. On the other hand, with increasing sizes of halogen atoms, the polymer crystallinity decreases caused by steric hindrance induced main-chain nonplanarity as suggested by density functional theory (DFT) calculations and confirmed by X-ray diffraction (XRD) and absorption measurements. With the cross-conjugated thienyl side-chains, the PTV polymers are all amorphous due to the large dihedral angles between the main-chain and side-chain thienyl rings. However, with strongly electron-withdrawing groups attached on the side-chain thiophene rings, new electronic transitions located at lower energies are observed, which have never been observed in PTVs and are assigned to main-chain to side-chain intramolecular charge transfer (ICTs) transitions. Such ICT transitions can potentially alter the PTV excited states ordering and dynamics, as evidenced by the appearance of fluorescence in one of the cross-conjugated PTVs bearing strong electron-withdrawing cyanoester vinylene groups. Applications of these new PTVs in bulk heterojunction (BHJ) organic solar cells (OSCs) have been attempted, and preliminary results showed much improved performances over devices using conventional PTVs, especially for those applying the cross-conjugated PTVs. Our methodologies are highly versatile in preparing PTVs with systematically varied structures that for the first time provide means to study and gain better understandings on the structure–property relationships of this unique class of materials and to potentially generate novel polymers tailor-designed for specific electronic applications.

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Ultrafast optical studies of ordered poly(3-thienylene-vinylene) films

Cited by 27 publications

References 22 publications

Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Large Excited-State Conformational Displacements Expedite Triplet Formation in a Small Conjugated Oligomer

Structurally Diverse Poly(thienylene vinylene)s (PTVs) with Systematically Tunable Properties through Acyclic Diene Metathesis (ADMET) and Postpolymerization Modification

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