Solvent‐Free Transfer of Freestanding Large‐Area Conjugated Polymer Films for Optoelectronic Applications

Esparza, Guillermo L.; Kodur, Moses; Chen, Alexander X.; Wang, Benjamin; Bunch, Jordan A.; Cramlet, Jaden; Runser, Rory; Fenning, David P.; Lipomi, Darren J.

doi:10.1002/adma.202207798

Cited by 7 publications

(7 citation statements)

References 30 publications

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“…To avoid destruction of the Y7-BO smallmolecule layer by solvents used in typical sequential spin coating (SC) processes, we transferred a PM6 polymer layer formed separately on water via the spontaneous spreading (SS) phenomenon caused by the Marangoni effect, which has been utilized for applications involving the R2R process. [66][67][68] Coating the top layer via the SS process, which is otherwise almost impossible, enabled the realization of an inverted structure. The face-on orientation of the SS-processed polymer lms was reinforced by optimizing the amount of a solvent additive, i.e., 1-chloronaphtalene (CN).…”

Section: Introductionmentioning

confidence: 99%

Pseudo-bilayered inverted organic solar cells using the Marangoni effect

Jeong

Lee

et al. 2023

J. Mater. Chem. A

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Section: Introductionmentioning

confidence: 99%

Pseudo-bilayered inverted organic solar cells using the Marangoni effect

Jeong

Lee

et al. 2023

J. Mater. Chem. A

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“…Accordingly, the realization of conformal transfer of several cm 2 2PP structures was obtained, as shown in Figure S9 (Supporting Information). Furthermore, both large‐scale nanofilm preparation techniques [ 48 ] and feasible large‐scale nanofilm transfer from the water surface [ 49 ] enable the application of the proposed 2PP printing handling method to on‐demand surface areas.…”

Section: Transfer Printing Of 2pp 3d‐microstructures Via Nanomembranesmentioning

confidence: 99%

Facile Handling of 3D Two‐Photon Polymerized Microstructures by Ultra‐Conformable Freestanding Polymeric Membranes

Hoed

Ottomaniello

Tricinci

et al. 2023

Adv Funct Materials

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Micro‐nano‐fabrication on objects with complex surfaces is essential for the development of technologies in the growing fields of flexible electronics and photonics. Various strategies are devised to extend the fabrication from conventional planar substrates to curved ones, however, significant challenges still exist, especially in the framework of 3D printing and additive manufacturing. In this study, a novel technique is presented to realize 3D micro‐structures on arbitrary complex surfaces providing an extreme level of conformability. This method relies on the fabrication of micro‐structures via two‐photon polymerization on polymeric nano‐membranes that can be efficiently transferred to a specific target. Ultra‐thin polymeric films are exploited as the support to suspend and transfer the printed micro‐structures on the predefined surface. The nanofilm can finally be easily removed, apart from the region underneath the printed elements where it serves as a few tens of nanometers adhesive. The repeatability and feasibility of the proposed process are investigated and shown to provide large flexibility of choice on the printed structures, materials used, transfer procedures, and targeted substrate geometries. By integration with standard fabrication processes, the described technique offers a great potential for the development of next‐generation multidimensional/multi‐material micro‐nano‐technologies.

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“…Furthermore, UFTM can also be applied to multilayer system consisting of single material as well as heterojuction structure, i.e., multilayers with different materials. [25,26] In this work, we have utilized UFTM as a simple, facile cost/material utilization-effective technique to fabricate large area and oriented thin films regioregular poly(3-hexylthiophene) (RR-P3HT) as a representative solution processable CP. Oriented multiple layers of the thin films of this polymer were successfully fabricated and demonstrated that there was no detrimental effect on the underlying layer as confirmed by optical, microstructural, and electrical characterizations.…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore, UFTM can also be applied to multilayer system consisting of single material as well as heterojuction structure, i.e., multilayers with different materials. [ 25,26 ]…”

Section: Introductionmentioning

confidence: 99%

Facile Fabrication and Characterization of Oriented and Multilayer Thin Films of Solution Processable Conjugated Polymer

Sharma

Nagamatsu

Singh

et al. 2023

Physica Status Solidi (a)

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Fabrication of multilayer thin films of solution‐processable organic semiconductors has great potential in organic electronics but adopting existing thin film techniques to attain this is highly cumbersome. In this work, a unique unidirectional floating film transfer method (UFTM) has been utilized, which allows the facile fabrication of large area and oriented thin films of conjugated polymers. Using this method, we have successfully fabricated and characterized multilayer and oriented thin films of regioregular poly(3‐hexylthiophene) without having any adverse effect on the underlying layers. Optical characterizations revealed that fabricated thin films are anisotropic with a dichroic ratio of 2.2 having a single layer thickness of 14.5 nm. X‐ray diffraction results demonstrated uniformity in the crystallinity of the multilayered thin film with comparable crystallite size and inter‐planar spacing with purely edge‐on molecular orientation. The organic field effect transistor fabricated using multilayer thin films also exhibits a uniform and saturated charge carrier mobility of about 0.1 cm2V‐1s‐1.This article is protected by copyright. All rights reserved.

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Solvent‐Free Transfer of Freestanding Large‐Area Conjugated Polymer Films for Optoelectronic Applications

Cited by 7 publications

References 30 publications

Pseudo-bilayered inverted organic solar cells using the Marangoni effect

Pseudo-bilayered inverted organic solar cells using the Marangoni effect

Facile Handling of 3D Two‐Photon Polymerized Microstructures by Ultra‐Conformable Freestanding Polymeric Membranes

Facile Fabrication and Characterization of Oriented and Multilayer Thin Films of Solution Processable Conjugated Polymer

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