Electrophoresis Assisted Printing: A Method To Control the Morphology in Organic Thin Films

Pröller, Stephan; Filonik, Oliver; Eller, Fabian; Mansi, Salma; Zhu, Chenhui; Schaible, Eric; Hexemer, Alexander; Müller‐Buschbaum, Peter; Herzig, Eva M.

doi:10.1021/acsami.9b18064

Cited by 6 publications

(4 citation statements)

References 44 publications

(84 reference statements)

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“…[ 53,54 ] We already demonstrated this property in a previous work by the positive electrophoretic mobility of P3HT in CF and used it to move P3HT in a wet thin film driven by an electric field. [ 55 ] If P3HT is further positively charged beyond this intrinsic effect, that is, further electrons are transferred from P3HT to CF, charge remains localized on the P3HT for a longer time. The reason is that the CF − anion is unstable, and a Cl − anion splits off upon charging a CF molecule negatively.…”

Section: Discussionmentioning

confidence: 99%

Spark Discharge Doping—Achieving Unprecedented Control over Aggregate Fraction and Backbone Ordering in Poly(3‐hexylthiophene) Solutions

Eller

Wenzel

Hildner

et al. 2023

Small

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Section: Discussionmentioning

confidence: 99%

Spark Discharge Doping—Achieving Unprecedented Control over Aggregate Fraction and Backbone Ordering in Poly(3‐hexylthiophene) Solutions

Eller

Wenzel

Hildner

et al. 2023

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“…V.F et al [19], electrodeposited zinc oxide at 30, 40, and 50 V for application on DSSCs; Proller. S. et al [24], deposited organic thin films by EPD, achieving a power conversion efficiency of 25%. Das.…”

Section: Introductionmentioning

confidence: 99%

Effect of Time and Voltage on the Electrophoresis Deposition of Zinc Oxide Thin Films for Photovoltaic Applications

Nunes,

Graça,

Hammami

et al. 2024

Applied Sciences

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Electrophoretic deposition is a straightforward, environmentally friendly, and cost-effective technique for depositing and synthesizing nanomaterials, particularly nanofilms of semiconductors. Key parameters in electrophoresis include deposition time and voltage. Zinc oxide, a semiconductor of significant interest in solar energy research, possesses favorable characteristics, notably, a band gap value of approximately 3.33 eV. In the realm of dye-sensitized solar cells, which represent the third generation of solar cells, zinc oxide has emerged as a compelling choice for a photoanode. This study focused on depositing thin films of zinc oxide through electrophoresis and applying them as photoanodes in dye solar cells. The results demonstrated that the electrodeposited films exhibited good reflectance in the visible spectrum (~60–90%), a band gap energy of 3.28 eV, and an incident photon conversion efficiency of approximately 4.48% for the electrodeposited film at 80 V for 5 min.

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“…Recently, single-junction organic solar cells (OSCs) reached remarkable power conversion efficiencies (PCEs) of 18%, [1][2][3] facilitated by the usage of novel materials, especially nonfullerene acceptors, [4,5] and increased control of film morphologies. [6][7][8] Understanding the generation of free charge carriers from absorbed photons is fundamental to design novel organic semiconductors and to tailor the electronic properties of interfaces in donor:acceptor blends for efficient solar cells. Despite the rapid increase in efficiencies, we are still lacking a detailed understanding of the motion of photogenerated charge carriers within the multiphase thin films consisting of crystalline and amorphous domains, or even strongly mixed donor: acceptor phases.…”

Section: Introductionmentioning

confidence: 99%

Origin of Hole Transport in Small Molecule Dilute Donor Solar Cells

Kaiser

Murthy

Chung

et al. 2021

Adv Energy and Sustain Res

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Dilute donor organic solar cells (OSCs) are a promising technology to circumvent the trade‐off between open‐circuit voltage (Voc) and short‐circuit current density (Jsc). The origin of hole transport in OSCs with donor concentrations below the percolation threshold is diversely discussed in the community. Herein, both hole back transfer and long‐range hopping (tunneling) are analyzed as possible mechanisms of photocurrent in small molecule dilute donor OSCs using kinetic Monte Carlo (kMC) simulations. In contrast to previous kMC studies, the driving force for exciton dissociation is accounted for. As a study system, nitrogen‐bridged terthiophene (NBTT) molecules in a [6,6]‐phenyl‐C70‐butyric acid methyl ester (PC71BM) matrix are investigated. The simulations show that hole back transfer from the small molecule donor to the fullerene matrix explains the measured concentration dependences of the photocurrents as well as the Jsc dependence on the light intensity for donor concentrations below 5 wt%. For 5 wt%, distances between NBTT molecules decrease to reasonable ranges that long‐range hopping or tunneling cannot be discounted. Compared with polymer donors, larger hole localization is observed. The results emphasize that the barrier for hole back transfer is not only due to the highest occupied molecular orbital (HOMO) offset, but also by hole localization.

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Electrophoresis Assisted Printing: A Method To Control the Morphology in Organic Thin Films

Cited by 6 publications

References 44 publications

Spark Discharge Doping—Achieving Unprecedented Control over Aggregate Fraction and Backbone Ordering in Poly(3‐hexylthiophene) Solutions

Spark Discharge Doping—Achieving Unprecedented Control over Aggregate Fraction and Backbone Ordering in Poly(3‐hexylthiophene) Solutions

Effect of Time and Voltage on the Electrophoresis Deposition of Zinc Oxide Thin Films for Photovoltaic Applications

Origin of Hole Transport in Small Molecule Dilute Donor Solar Cells

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