Biomimetic Approach to Inhibition of Photooxidation in Organic Solar Cells Using Beta-Carotene as an Additive

Turkovic, Vida; Prete, Michela; Bregnhøj, Mikkel; Inasaridze, Liana N.; Volyniuk, Dmytro; Obrezkov, Filipp A.; Engmann, Sebastian; Rubahn, Horst‐Günter; Troshin, Pavel A.; Ogilby, Peter R.; Madsen, Morten

doi:10.1021/acsami.9b13085

Cited by 35 publications

(43 citation statements)

References 81 publications

(210 reference statements)

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“…44 We claim that under the specific experimental conditions of light and oxygen exposure employed in this study, the radical cation chain reaction can easily initiate, as the high HOMO level of alkenes can facilitate the electron transfer from alkenes to oxygen. Other mechanisms involving the presence of photosensitized production of singlet oxygen may also contribute to degradation of organic photovoltaic materials, as recently reported by Turkovic et al 45 On the other side, fluorine substitution in the end-group of the ITIC molecule increases the non-covalent interactions with the consequent introduction of a favored cell packing. 46 Moreover, fluorination lowers the HOMO/LUMO levels, increases the electron affinity 47 and enhances the molecular electron-pulling effect, with the result of a more efficient delocalization of the electron cloud over the electron-withdrawing site, and a reduced oxidative effect.…”

Section: Ast On As-cast Iticsmentioning

confidence: 80%

Structure dependent photostability of ITIC and ITIC-4F

et al. 2020

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Section: Ast On As-cast Iticsmentioning

confidence: 80%

Structure dependent photostability of ITIC and ITIC-4F

et al. 2020

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“…The irreversible efficiency loss is driven by short-circuit current density ( J SC ) and fill factor (FF) loss (Figure 3b,d), which could be a consequence of photoinduced fullerene dimerization, as previously reported by Heumueller et al [17] Also, singlet oxygen-based degradation has recently been pointed on for specific PC 60/70 BM-based systems. [8][9][10] The most notable result of the outdoor testing is the presence of reversible degradation, i.e., degradation occurs when the device is illuminated, but after storing the device in the dark, the efficiency recovers. This effect appears to be primarily driven by V OC and (to a lesser extent) J SC (Figure 3b,c).…”

Section: Outdoor Ageing Studiesmentioning

confidence: 99%

“…Extrinsic mechanisms, such as oxygen, water, UV exposure, and mechanical stress, can be largely controlled through the engineering of encapsulation barriers and use of device additives. [8][9][10][11][12] Intrinsic mechanisms include the effects of heat and light on the device structure and electronic properties, [13][14][15] which can only be mitigated by altering the materials or structure of the device itself. In addition, the device processing, or purity of material, may also introduce oxygen or other defects into the device structure prior to encapsulation.…”

Section: Introductionmentioning

confidence: 99%

“…[16][17][18] In specific systems it also includes singlet oxygen initiated degradation processes as recently demonstrated. [10,19,20] However, NFAs are not without their own stability issues. While some NFA-based devices have been shown to exhibit excellent thermal stability, [21] they are often fabricated using processing additives that can be detrimental to device lifetime.…”

Section: Introductionmentioning

confidence: 99%

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Degradation Behavior of Scalable Nonfullerene Organic Solar Cells Assessed by Outdoor and Indoor ISOS Stability Protocols

et al. 2020

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The development of nonfullerene acceptors (NFAs) has led to dramatic improvements in the device efficiencies of organic photovoltaic (OPV) cells. To date it is, however, still unclear how those laboratory‐scale efficiencies transfer to commercial modules, and how stable these devices will be when processed via industrially compatible methods. Herein, the degradation behavior of lab‐scale and scalable OPV devices using similar nonfullerene‐based active layers is assessed. It is demonstrated that the scalable NFA OPV exhibits completely reversible degradation when assessed in ISOS‐O‐1 outdoor conditions, which is in contrast to the laboratory‐scale devices assessed via the indoor ISOS‐L‐2 protocol. Results from transient photovoltage (TPV) indicate the presence of charge trap formation, and a number of potential mechanisms are proposed for the selective occurrence of this in laboratory‐scale devices tested in ISOS‐L laboratory conditions—ultimately concluding that it has its origins in the different device architectures used. The study points at the risk of assessing active layer stability from laboratory‐scale devices and degradation studies alone and highlights the importance of using a diverse range of testing conditions and ISOS protocols for such assessment.

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“…Photoelectron emission spectroscopy measurement was performed according to the procedure reported in literature [27]. OLED fabrication and characterization was carried out according to the procedure reported earlier [28].…”

Section: Experimental Instrumentationmentioning

confidence: 99%

Synthesis and properties of quinazoline-based versatile exciplex-forming compounds

Keruckienė

Vekteryte

Urbonas

et al. 2020

Beilstein J. Org. Chem.

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Three compounds, bearing a quinazoline unit as the acceptor core and carbazole, dimethyldihydroacridine, or phenothiazine donor moieties, were designed and synthesized in two steps including a facile copper-catalyzed cyclization and a nucleophilic aromatic substitution reaction. The photophysical properties of the compounds, based on theoretical calculations and experimental measurements, as well as the electrochemical and thermal properties, are discussed. The synthesized compounds form glasses with glass-transition temperatures ranging from 116 °C to 123 °C. The ionization potentials estimated by cyclic voltammetry of the derivatives were in the range of 5.22–5.87 eV. The 3,6-di-tert-butylcarbazole-substituted quinazoline-based compound forms a sky-blue emitting exciplex in solid mixture with the acceptor 2,4,6-tris[3-(diphenylphosphinyl)phenyl]-1,3,5-triazine as well as an orange emitting exciplex with the donor 4,4′,4″-tris[3-methylphenyl(phenyl)amino]triphenylamine. A white OLED based on these versatile exciplex systems with a relatively high maximum brightness of 3030 cd/m2 and an external quantum efficiency of 0.5% was fabricated.

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Biomimetic Approach to Inhibition of Photooxidation in Organic Solar Cells Using Beta-Carotene as an Additive

Cited by 35 publications

References 81 publications

Structure dependent photostability of ITIC and ITIC-4F

Structure dependent photostability of ITIC and ITIC-4F

Degradation Behavior of Scalable Nonfullerene Organic Solar Cells Assessed by Outdoor and Indoor ISOS Stability Protocols

Synthesis and properties of quinazoline-based versatile exciplex-forming compounds

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