Your search keyword '"Henri Fledderus"' showing total 4 results

1. R2R suitable processing of large area organic electronics with integrated barrier layer using short-pulsed lasers

Author

Udo Klotzbach, Niels Friedrich-Schilling, Henri Fledderus, and Thomas Kuntze

Subjects

Organic electronics, Barrier layer, Materials science, business.industry, law, Optoelectronics, business, Laser, law.invention

Published

2018

2. Roll-to-roll suitable short-pulsed laser scribing of organic photovoltaics and close-to-process characterization

Author

Philipp Wollmann, Udo Klotzbach, Henri Fledderus, and Thomas Kuntze

Subjects

Organic electronics, Materials science, Organic solar cell, Photovoltaic system, Nanotechnology, 02 engineering and technology, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, 0104 chemical sciences, law.invention, Roll-to-roll processing, Machining, Coating, law, engineering, Electronics, 0210 nano-technology

Abstract

The proper long term operation of organic electronic devices like organic photovoltaics OPV depends on their resistance to environmental influences such as permeation of water vapor. Major efforts are spent to encapsulate OPV. State of the art is sandwich-like encapsulation between two ultra-barrier foils. Sandwich encapsulation faces two major disadvantages: high costs (∼1/3 of total costs) and parasitic intrinsic water (sponge effects of the substrate foil). To fight these drawbacks, a promising approach is to use the OPV substrate itself as barrier by integration of an ultra-barrier coating, followed by alternating deposition and structuring of OPV functional layers. In effect, more functionality will be integrated into less material, and production steps are reduced in number. All processing steps must not influence the underneath barrier functionality, while all electrical functionalities must be maintained. As most reasonable structuring tool, short and ultrashort pulsed lasers USP are used. Laser machining applies to three layers: bottom electrode made of transparent conductive materials (P1), organic photovoltaic operative stack (P2) and top electrode (P3). In this paper, the machining of functional ∼110...250 nm layers of flexible OPV by USP laser systems is presented. Main focus is on structuring without damaging the underneath ultra-barrier layer. The close-to-process machining quality characterization is performed with the analysis tool "hyperspectral imaging" (HSI), which is checked crosswise with the "gold standard" Ca-test. It is shown, that both laser machining and quality controlling, are well suitable for R2R production of OPV.

Published

2017

3. Up-scaling perovskite solar cell manufacturing from sheet-to-sheet to roll-to-roll: Challenges and solutions

Author

Herbert Lifka, Sjoerd Veenstra, F. van den Bruele, I.G. de Vries, Henri Fledderus, Tom Aernouts, Yulia Galagan, Pim Groen, R. Andrissen, Santhosh Shanmugam, F. Di Giacomo, Gerwin Kirchner, and Harrie Gorter

Subjects

Slot die coating, Materials science, Perovskite solar cell, Nanotechnology, 02 engineering and technology, engineering.material, 010402 general chemistry, 01 natural sciences, Roll-to-roll processing, Coating, Flexible solar cell, Photovoltaics, Roll-to-roll, Perovskite (structure), Spin coating, Industrial Innovation, business.industry, Sheet-to-sheet, 021001 nanoscience & nanotechnology, Evaporation (deposition), 0104 chemical sciences, engineering, Up-scaling, 0210 nano-technology, business, Layer (electronics)

Abstract

Organometallic halide perovskite solar cells (PSCs) are extremely promising novel materials for thin-film photovoltaics, exhibiting efficiencies over 22% on glass and over 17% on foil 1, 2. First, a sheet-to-sheet (S2S) production of PSCs and modules on 152x152 mm2 substrates was established, using a combination of sputtering, e-beam evaporation, slot die coating and thermal evaporation (average PCE of 14.6 ± 1.3 % over 64 devices, more than 10% initial PCE on modules). Later the steps towards a roll-to-roll production will be investigated, starting from the optimization of the stack to make it compatible with a faster production at low temperature. A water based SnOx nanoparticles dispersion was used as solution processable ETL, and the deposition process was scaled-up from spin coating to R2R slot die coating on a 300 mm wide roll of PET/ITO. R2R production is often carried out in ambient atmosphere and involve the use of large volumes of materials, thus a first point is the development of a green solvent and precursor system for the perovskite layer to prevent the emission of toxic compound in the environment. The first results on device fabrication are encouraging, which allow partial R2R manufacturing of flexible PSC (R2R coating of SnOx and perovskite, S2S for Spiro-OMeTAD and gold) with stabilized PCE of 12.6%, a remarkable value for these novel devices. This result can be considered an important milestone towards the production of efficient, low cost, lightweight, flexible PSC on large area.

Published

2017

4. Influence of barrier absorption properties on laser patterning thin organic films

Author

Geert Van Steenberge, David Schaubroeck, An M. Prenen, Ferdie van Assche, Henri Fledderus, Rajesh Mandamparambil, Sanjeev Naithani, and Jan Vanfleteren

Subjects

Materials science, Excimer laser, business.industry, medicine.medical_treatment, Laser, law.invention, Indium tin oxide, Barrier layer, PEDOT:PSS, law, medicine, OLED, Optoelectronics, Thin film, business, Black spot

Abstract

This paper presents a study of selective ablation of thin organic films (LEP- Light Emitting Polymer, PEDOT:PSS- Poly 3,4-ethylenedioxythiophene: polystyrene sulfonate) by using 248 nm Excimer laser, on various kinds of multilayered SiN barrier foils for the development of Organic Light Emitting Diodes (OLED). Different Silicon Nitride (SiN) barrier foils with dedicated absorption spectra are taken into account for this purpose. The drive for looking into different types of SiN originates from the fact that the laser selective removal of a polymer without damage to the barrier layer underneath is challenging in the dynamic laser processing of thin films. The barrier is solely responsible for the proper encapsulation of the OLED stack. The main limitation of current OLED design is its shorter life span, which is directly related to the moisture or water permeation into the stack, leading to black spots. An optimization of laser parameters like fluence and number of shots has been carried out for the various types of SiN barrier foils. We are able to obtain a wider working process window for the selective removal of LEP and PEDOT:PSS from SiN barrier, by variation of the different types of SiN.

Published

2012