Kinetic Modeling of the Electric Field Dependent Exciton Quenching at the Donor–Acceptor Interface

Benatto, Leandro; Moraes, C. A. M.; Bassi, Maiara de Jesus; Wouk, Luana; Roman, Lucimara S.; Koehler, Marlus

doi:10.1021/acs.jpcc.0c11458

Cited by 10 publications

(10 citation statements)

References 70 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…According to the molecular line theory proposed by Zhou and Swager, the single-state exciton generated upon absorption of light migrates rapidly along the polymer backbone by hopping between chromophores . The exciton will be quenched when it reaches the site occupied by exciton quencher , or domain/phase interface in heterojunction. − High-valence ions, such as calcium ions, charged proteins and nucleic acids are often good exciton quenchers, which makes this technique suitable for the analysis of ionic species. Lastly, photoluminescence spectroscopy provides the information on polaron concentrations.…”

Section: Optical Spectroelectrochemistrymentioning

confidence: 99%

Operando Characterization of Organic Mixed Ionic/Electronic Conducting Materials

Matta

Paulsen

et al. 2022

Chem. Rev.

View full text Add to dashboard Cite

Operando characterization plays an important role in revealing the structure− property relationships of organic mixed ionic/electronic conductors (OMIECs), enabling the direct observation of dynamic changes during device operation and thus guiding the development of new materials. This review focuses on the application of different operando characterization techniques in the study of OMIECs, highlighting the time-dependent and bias-dependent structure, composition, and morphology information extracted from these techniques. We first illustrate the needs, requirements, and challenges of operando characterization then provide an overview of relevant experimental techniques, including spectroscopy, scattering, microbalance, microprobe, and electron microscopy. We also compare different in silico methods and discuss the interplay of these computational methods with experimental techniques. Finally, we provide an outlook on the future development of operando for OMIEC-based devices and look toward multimodal operando techniques for more comprehensive and accurate description of OMIECs.

show abstract

Section: Optical Spectroelectrochemistrymentioning

confidence: 99%

Operando Characterization of Organic Mixed Ionic/Electronic Conducting Materials

Matta

Paulsen

et al. 2022

Chem. Rev.

View full text Add to dashboard Cite

show abstract

“…More importantly, photo-mediated chemistry allows for the possibility of producing highly reactive radicals under ambient conditions and provides the potential to unlock new reactions, which are usually inaccessible under typical thermal conditions . To enable visible-light photoredox catalysis, the photocatalyst should be capable of absorbing visible light for excitation and subsequent single-electron transfer in the substrate . Generally, the molecules or aggregates which can reach the charge-transfer (CT) excited state upon visible-light absorption are good candidates as photocatalysts.…”

mentioning

confidence: 99%

Visible-Light-Induced Oxazoline Formations from N-Vinyl Amides Catalyzed by an Ion-Pair Charge-Transfer Complex

Sun

Xiao

et al. 2021

ACS Catal.

View full text Add to dashboard Cite

Visible-light photoredox catalysis plays an important role in various reactions which are inaccessible under typical thermal conditions. Distinctly different from common visible-light photoredox catalysis which often involves transition-metal complexes, conjugated organic dyes, or electron donor−acceptor complexes, herein, the use of ion-pair charge-transfer (IPCT) complex-induced visible-light photoredox catalytic reactions are described, wherein the cyclization−methoxylation of N-vinyl amides in methanol was achieved under irradiation with blue LEDs. The reaction employs a heteroarenium iodide as the photocatalyst and can be extended to cyclization−alkoxylation, −acyloxylation, and −hydroxylation. This protocol provides an eco-friendly synthetic route to a wide range of oxazoline derivatives. Mechanistic investigations with UV−visible spectroscopy and control experiments confirm the existence of the IPCT absorption band in the visible region for the heteroarenium iodide, which is responsible for the observed reactivity.

show abstract

“…However, photoexcitation of organic semiconductors generates excitons that are coulombically bound electron–hole pairs. , The excitons formed in D or A can diffuse up to the D/A interface, where they are more easily dissociated, thus generating free charges. − The free charges are then transported to their respective electrodes, producing the device’s photocurrent response …”

Section: Introductionmentioning

confidence: 99%

Binding Energy of Triplet Excitons in Nonfullerene Acceptors: The Effects of Fluorination and Chlorination

et al. 2022

Self Cite

View full text Add to dashboard Cite

One strategy to improve the photovoltaic properties of nonfullerene acceptors (NFAs), employed in state-of-art organic solar cells, is the rational fluorination or chlorination of these molecules. Although this modification improves important acceptor properties, little is known about the effects on the triplet states. Here, we combine the polarizable continuum model with an optimally tuned range-separated hybrid functional to investigate this issue. We find that fluorination or chlorination of NFAs decreases the degree of the highest occupied molecular orbital− lowest unoccupied molecular orbital (HOMO−LUMO) overlap along these molecules. Consequently, the energy gap between T 1 and S 1 states, ΔE ST = E S1 − E T1 , also decreases. This effect reduces the binding energy of triplet excitons, which favors their dissociation into free charges. Furthermore, the reduction of ΔE ST can contribute to mitigating the losses produced by the nonradiative deactivation of the T 1 excitons. Interestingly, although Cl has a lower electronegativity than F, chlorination is more effective to reduce ΔE ST . Since the chlorination of NFAs is easier than fluorination, Cl substitution can be a useful approach to enhance solar energy harvesting using triplet excitons.

show abstract

Kinetic Modeling of the Electric Field Dependent Exciton Quenching at the Donor–Acceptor Interface

Cited by 10 publications

References 70 publications

Operando Characterization of Organic Mixed Ionic/Electronic Conducting Materials

Operando Characterization of Organic Mixed Ionic/Electronic Conducting Materials

Visible-Light-Induced Oxazoline Formations from N-Vinyl Amides Catalyzed by an Ion-Pair Charge-Transfer Complex

Binding Energy of Triplet Excitons in Nonfullerene Acceptors: The Effects of Fluorination and Chlorination

Contact Info

Product

Resources

About