Digital printing of electroluminescent devices on textile substrates

Graßmann, Carsten; Grethe, Thomas; Langenhove, Lieva Van; Schwarz-Pfeiffer, Anne

doi:10.1177/1558925019861624

Cited by 5 publications

(9 citation statements)

References 28 publications

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“…The Figure 33 shows different infill patterns applicable with additive manufacturing. It influences the print impression [181]. The amount of material in the sanctum of the 3DP part accounts for the infill density and percentage.…”

Section: Infill Pattern Percentage and Ratiomentioning

confidence: 99%

3D printing technology for textiles and fashion

et al. 2020

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3D printing (3DP) is one of the modern approaches in the field of manufacturing. Although this process has been known for a fair amount of time, only the recent developments have revealed its novel and true potential for applications in different manufacturing sectors. Textile, one of the basic human requirements, does more than just fulfilling the fundamental necessity of covering our body. Integrating 3DP technology in textiles has broadened the horizon of the textile world.This review explores the historical background as well as state-of-the-art developments in 3DP related to textiles and fashion. Basic ideas about fundamental textile substrates, various 3DP technologies related to textiles, different printing devices and tools, materials used as print inks, direct printing of 3D objects on various textile substrates, fabrication techniques of 3D printed textile structures, different process parameters and their impacts, tests and standards, benefits and limitations are the contents of the discussions throughout this paper. It also highlights the future aspects concerning the further implementation of 3DP technology in the textile industry.Overall, the paper draws a picture with an intention to ascertain the undeniable promise of 3DP, despite having some drawbacks, to enrich the future of the textile and fashion industry with an aim to motivate future designers and scientists towards further exploration within this field of knowledge.

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Section: Infill Pattern Percentage and Ratiomentioning

confidence: 99%

3D printing technology for textiles and fashion

et al. 2020

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“…As an alternative, electroluminescent (EL) technologies can be integrated in a facile manner into alternating current (AC)-powered soft electronic devices. [2] Compared to LEDs and OLEDs, alternating current electroluminescent (ACEL) device technology is still considered particularly promising for flat and flexible large-area light sources. [8] In EL devices, light emission results from phosphorescent materials in an alternating electric field.…”

Section: Introductionmentioning

confidence: 99%

“…Copper (Cu) doping in ZnS results in a blue-green light, manganese (Mn) doping in a red light, and aluminum (Al) doping in a blue light. [2,9,10,[12][13][14][15] Copper-doped zinc sulfide (ZnS:Cu) has been studied extensively and its working principle is thoroughly understood, making it an excellent candidate for use in ACEL devices. [15] However, the use of dopants produces weak spots in the luminescent powder, as some of the doping atoms and the ZnS itself can be oxidized or start hydrolyzing over time, causing the ACEL device to degrade.…”

Section: Introductionmentioning

confidence: 99%

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Use of Field Concentration for Electroluminescent Devices

Vaicekauskaite,

Yang,

Dam‐Hansen

et al. 2023

Adv Materials Technologies

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Field concentration is often regarded as a problematic issue in soft electronics applications, especially when using curved electrodes, and in particular, those with sharp edges. However, field concentration can be turned into an advantage with appropriate device design. Here, the applications of field concentration in hydrogel‐elastomer devices are explored. Three different types of electroluminescent hydrogel‐elastomer devices are made using different types of electrodes and different light patterns. In addition, the effect of the field concentration can be extended into the bulk of the elastomer by preparing porous silicone elastomers and filling them with silicone oil. These devices are shown to be flexible and possess both good luminance and a long lifetime.

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“…3D printing can be also used as tool for application of conductive layers and the fixation of electronic components on textile surfaces, which can find applications in smart textiles [11][12][13][14]. A very fascinating application in this field is the realization of printed electroluminescent devices on textile materials [15]. 3D printing on textiles is also discussed as a first step to realize 4D textile materials [16].…”

Section: Introductionmentioning

confidence: 99%

3D-printing on textiles – an investigation on adhesion properties of the produced composite materials

Gorlachova

Mahltig

2021

J Polym Res

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The actual paper is related to adhesive properties of 3D objects printed on cotton textile fabrics. For practical applications of 3D prints in the textile sector, the adhesion of the printed object on the textile substrate is an important issue. In the current study, two different types of polymers are printed on cotton – polylactide acid (PLA) and polyamide 6.6 (Nylon). Altogether six cotton fabrics differing in structure, weight and thickness are evaluated. Also, the effect of washing and enzymatic desizing is investigated. For printing parameters, best results are gained for elevated process temperatures, intermediate printing speed and low Z-distance between printing head and substrate. Also, a textile treatment by washing and desizing can improve the adhesion of an afterwards applied 3D print. The presented results are quite useful for future developments of 3D printing applications on textile substrates, e.g. to implement new decorative features or protective functions.

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Digital printing of electroluminescent devices on textile substrates

Cited by 5 publications

References 28 publications

3D printing technology for textiles and fashion

3D printing technology for textiles and fashion

Use of Field Concentration for Electroluminescent Devices

3D-printing on textiles – an investigation on adhesion properties of the produced composite materials

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