Inkjet deposition of electrolyte : Towards Fully Printed Light-emitting Electrochemical Cells

Lindh, Mattias

January 2013

Organic electronics is a hot and modern topic which holds great promise for present and future applications. One such application is the light-emitting electrochemical cell (LEC). It can be fully solution processed and driven at low voltage providing light emission from a large surface. Inkjet printers available today can print a variety of inks, both solutions and dispersions. The technique is scalable and a quick and easy way to accurately deposit small quantities of material in user definable patterns onto a substrate. This is desirable to make low cost and efficient optical devices like displays. In this thesis it has been shown that solid electrolytes, after being dissolved in a liquid solvent, can be inkjet printed into a set of well separated distinct drops with an average maximum thickness of 150 nm. The electrolytes are commonly used in LECs and comprised by poly(ethylene glycol) with molar masses ranging from 1 – 35 kg/mol, and potassium trifluoromethanesulfonate (KCF3 SO3 )—together dissolved incyclohexanone to form an ink. The smallest achieved edge to edge distance between the printed drops was 40 μm. Together with a drop diameter of 50 μm it yields a coverage of 24% at a resolution of 280 dpi. Profiles of dried deposited drops of electrolyte were examined with a profilometer, which showed adistinct coffee ring effect on each drop. In particular, the ridges of the coffee rings were broken into pillar like shapes, together forming a structure akin to a scandinavian ancient remnant called stone ship. Different drop diameters were measured in and between the indium tin oxide samples. The drops’ speeds and sizes atejection from the nozzles seemed unchanged, and wettability is most probably the physical phenomena tolook into in order to understand what generates the differences. Local changes in surface roughness and/or surface energy, possibly originating from the cleaning process of the samples, is most likely the cause. No indications towards large differences in surface tension between the printable inks were seen, however their viscoelastic properties were not measured. As part of the thesis work a LEC characterization set-up was built. It drives a LEC at constant currentand measures the driving voltage, -current, and luminance over time. The set-up is controlled by a Labview virtual instrument and the data exported to a text-file for later analysis. The precision of the luminance measurements is ±0.1 cd/m2 for readings < 50 cd/m2 , but the accuracy is uncertain. The conclusion of this thesis is that it is indeed possible to print solid electrolytes dissolved in cyclo-hexanone with an inkjet printer. However, in order to fully understand the spreading and drying of thedrops, studies of the inks’ viscoelastic properties, together with surface roughness and -energy density ofthe substrates, are needed. The largest molar mass of nicely printable poly(ethylene glycol), at an ink concentration of 10 mg/ml, was 35 kg/mol. This is comparable to the molar mass of an active light-emittingmaterial, “SuperYellow”, often used in LECs. Even though their respective molecular structures are very different, this indicates that inkjet printing of complete LEC-inks, containing both the active material and solid electrolyte, is feasible. Most probably it would require substantial tuning of the printing parameters. This thesis provides further hope for future fully inkjet printed LECs.

inkjet printing

organic electronics

light-emitting electrochemical cell

solid electrolyte

coffee ring

stone ship

wettability

bläckstråleskrivare

organisk elektronik

ljusemitterande elektrokemiska celler

fast elektrolyt

kaffering

skeppssättning

vätbarhet

Functional printing : from the study of printed layers to the prototyping of flexible devices / Impression fonctionnelle : de l'étude de couches imprimées au prototypage de composants flexibles

Sette, Daniele

11 December 2014

Depuis les années 2000, l'impression fonctionnelle connait un grand succès pour la fabrication de composants électroniques. Elle se positionne de manière complémentaire par rapport aux technologies du silicium et vise principalement les marchés de l'électronique grande surface (écrans, panneaux photovoltaïques) et de l'électronique flexible (RFID, capteurs, textiles intelligents). Dans ce travail, des couches d'argent imprimées par jet d'encre ont été caractérisées en fonction des conditions d'impression et de recuit. L'évolution de leur microstructure, de leurs propriétés électriques et mécaniques a été étudiée. Dans ce cadre, des méthodes expérimentales ont été développées et validées par la bonne corrélation entre les mesures et les modèles. La maîtrise des propriétés de ces couches et l'optimisation de leur procédé de fabrication nous ont conduits à concevoir, fabriquer et caractériser plusieurs composants flexibles: un filtre passe bande centré à 17 GHz sur un substrat polyimide, un micro-capteur de vide fonctionnant sur le principe de Pirani et un bouton-poussoir d'épaisseur inférieure à 250 µm pour des claviers souples. Enfin, des condensateurs RF ont été réalisés par la superposition de couches imprimées diélectriques (BaSrTi) et conductrices (Ag). Les performances des prototypes réalisés sont proches de l'état de l'art et ouvrent la voie à de nouvelles applications pour les technologies d'impression. Cette étude démontre le potentiel des couches d'argent imprimées par jet d'encre pour la fabrication de dispositifs flexibles. / In the last decade, functional printing has gained a large interest for the manufacturing of electronic components. It stands aside to silicon technologies and specifically targets markets of large area devices (screens, photovoltaics) and flexible electronics (RFID antennas, sensors, smart textiles). In this work, inkjet printed silver layers are characterized depending on the printing conditions and the required post-printing annealing. The evolution of their microstructure, electrical and mechanical properties is investigated as a function of the annealing temperature. The correlation of the measurements with theoretical models supports the experimental methods that were developed. The knowledge of the printed silver layers assets and the optimization of the printing process lead to the design, fabrication and characterization of flexible electronics devices: a 17 GHz band-pass filter printed on polyimide, a flexible vacuum micro-sensor working on the Pirani principle, and a 250 µm thick membrane switch for keyboards. Finally, all printed RF capacitors were realized by stacking Barium Strontium Titanate (dielectric) and silver printed layers. These prototypes exhibit performances near the state-of-the-art and suggest new opportunities for printing technologies. This thesis offers a thorough study of inkjet printed silver layers and assess their potential for the manufacturing of flexible devices.

Impression jet d’encre

Encre argent

Nanoparticules

Substrats flexibles

Frittage

Caractérisation

Prototypage

Inkjet printing

Silver inks

Nanoparticles

Flexible substrates

Sintering

Characterization

Prototyping

620

Microfluidic graphenised-paper electroanalytical devices (μGPED) for adsorptive cathodic stripping voltammetric detection of metal contaminants

Pokpas, Keagan William

January 2017

Philosophiae Doctor - PhD / The need for clean, non-toxic drinking water supplies, free of pollutants and metal contamination is vital in impoverished areas and the developing world alike. With this in mind, the development of accurate, inexpensive, portable and simple devices for remote sensing applications is therefore pivotal for early detection and the prevention of illnesses. Over the last two decades, adsorptive stripping voltammetry (AdSV) has emerged as a superior detection method over common analytical techniques due to its low-cost instrumentation, unskilled labour and ability to detect a wide range of analytes. / 2020-08-31

Trace metal analysis

Paper-based microfluidics

Graphene

Electrochemical reduction

Nanocomposite

Gold nanoparticles

Chemical sensor

Inkjet printing

Wax patterning

Inks based on inorganic nanomaterials for printed electronics applications

Nelo, M. (Mikko)

24 November 2015

Abstract In this thesis several novel inks based on dry inorganic powders enabling magnetic, piezoelectric and memory resistive (memristive) function were researched for printed electronics applications. Low curing temperature screen–printable magnetic inks for high frequency applications based on dry cobalt nanoparticles were developed in the first part of the work. Three publications were achieved. The first one concentrated on ink formulation and its process development, the second on the utilization of multifunctional surfactant, and the third on the development of the inks for plastic substrates. The magnetic inks developed were cured at 120 °C. The electrical performance, microstructure, surface quality and mechanical durability of printed and cured layers were investigated. Relative permeability values up to 3 and related loss tangents up to 0.01 were achieved at 2 GHz frequency, as well as a pull–off strength of up to 5.2 MPa. The maximum loading level of cobalt nanoparticles was 60 vol–%, after which the stability of the ink started to degrade. The developed ink enabled the miniaturization of a patch antenna. In the second part of the thesis, the formulation of inks based on piezoelectric ceramic particles in powder form with ferroelectric polymers as a matrix material is introduced. The performance and quality of the printed inks and cured layers were investigated. The measured pull off –strength was up to 3.25 MPa, relative permittivity was up to 48 at 1 kHz and piezoelectric constant d31 up to 17 pm/V. The printed piezoelectric layer can be utilized in a pressure sensor. In the third part of the thesis, the development of inks for a novel printed memory component, a memristor, is researched. A synthesis route was developed for an organometallic precursor solution, which was formulated into inkjet–printable form. The printing tests were carried out in order to find the most feasible layer thickness with memristive behaviour. The influence of substrate materials and different thermal treatments on the components’ electrical properties, durability of read/erase –cycles and overall lifetime were also investigated. The prepared memristive patterns remained functional for up to 35 days, while the precursor solution remained usable for over a year. The memristive areas withstood up to 30 read/erase cycles and by utilizing heat treatments the shift in resistance value increased by up to three orders of magnitude. / Tiivistelmä Väitöstyössä kehitettiin epäorgaanisten kuivien jauhemaisten materiaalien pohjalta magneettisia, pietsosähköisiä ja memristiivisiä musteita käytettäviksi painettavan elektroniikan sovelluksissa. Työn ensimmäisessä osassa tutkittiin korkean taajuuden sovelluksissa käytettävien magneettisten, matalassa lämpötilassa kovetettavien, jauhemaisiin kobolttinanopartikkeleihin perustuvien silkkipainomusteiden valmistamista. Tulokset on esitetty kolmessa julkaisussa, joista ensimmäinen keskittyi musteen formulointiin, toinen monifunktionaalisen surfaktantin hyödyntämiseen ja kolmas musteen kehittämiseen muovialustalle sopivaksi. Työssä kehitettiin 120 °C:ssa kovettuvia musteita, joista valmistettujen kalvojen suhteellisen permeabiliteetin maksimiarvoksi saatiin 3 ja häviöiden minimiarvoksi 0,01 kahden gigahertsin taajuudella. Pull–off –vetotestin tulokseksi saatiin jopa 5,2 MPa. Musteet säilyivät vakaina enimmillään 60 tilavuusprosentin metallipitoisuudella. Kehitettyä mustetta käytettiin tasoantennin miniatyrisoinnissa. Toisessa osassa kehitettiin pietsosähköisiä musteita, jotka pohjautuivat keraamijauheeseen ja matriisimateriaalina toimivaan ferrosähköiseen muoviin. Niistä valmistettujen kalvojen parhaaksi pull off –vetotestin tulokseksi saatiin 3,25 MPa, permittiivisyyden maksimiarvoksi 48 yhden kilohertsin taajuudella ja d31–pietsovakion maksimiarvoksi jopa 17 pm/V. Kehitettyjä painettuja rakenteita voidaan käyttää painettavissa paineantureissa. Kolmannessa osassa kehitettiin uudentyyppinen painettava muistikomponentti, memristori ja komponenttien valmistamiseksi uusi prekursoriliuoksen synteesi. Syntetisoitu liuos muokattiin mustesuihkutulostettavaksi. Painokokeiden avulla selvitettiin materiaalin paksuus, jolla saatiin aikaan muistivastukselle ominainen memristiivinen käyttäytyminen. Työssä tutkittiin substraattimateriaalien ja mahdollisten lämpökäsittelyjen vaikutusta komponenttien sähköisiin ominaisuuksiin, luku/kirjoitussyklien kestoon sekä käyttöikään. Valmistetut memristiiviset kalvot säilyivät toimivina 35 vuorokautta ja prekursoriliuos yli vuoden. Memristiiviset pinnat kestivät jopa 30 luku/kirjoitussykliä ja vastusarvon muutos saatiin lämpökäsittelyllä kolmea kertaluokkaa suuremmaksi.

ink

inkjet printing

magnetic materials

memristor

nanoparticles

piezoelectricity

printed electronics

screen printing

magneettiset materiaalit

memristori

musteet

mustesuihkutulostus

nanopartikkelit

painettava elektroniikka

pietsosähköisyys

silkkipaino

Inkjet-printed quantum dot hybrid light-emitting devices—towards display applications

Haverinen, H. (Hanna)

09 March 2010

Abstract This thesis presents a novel method for fabricating quantum dot light-emitting devices (QDLEDs) based on colloidal inorganic light-emitting nanoparticles incorporated into an organic semiconductor matrix. CdSe core/ZnS shell nanoparticles were inkjet-printed in air and sandwiched between organic hole and electron transport layers to produce efficient photon-emissive media. The light-emitting devices fabricated here were tested as individual devices and integrated into a display setting, thus endorsing the capability of this method as a manufacturing approach for full-colour high-definition displays. By choosing inkjet printing as a deposition method for quantum dots, several problems currently inevitable with alternative methods are addressed. First, inkjet printing promises simple patterning due to its drop-on-demand concept, thus overruling a need for complicated and laborious patterning methods. Secondly, manufacturing costs can be reduced significantly by introducing this prudent fabrication step for very expensive nanoparticles. Since there are no prior demonstrations of inkjet printing of electroluminescent quantum dot devices in the literature, this work dives into the basics of inkjet printing of low-viscosity, relatively highly volatile quantum dot inks: piezo driver requirements, jetting parameters, fluid dynamics in the cartridge and on the surface, nanoparticle assembly in a wet droplet and packing of dots on the surface are main concerns in the experimental part. Device performance is likewise discussed and plays an important role in this thesis. Several compositional QDLED structures are described. In addition, different pixel geometries are discussed. The last part of this dissertation deals with the principles of QDLED displays and their basic components: RGB pixels and organic thin-film transistor (OTFT) drivers. Work related to transistors is intertwined with QDLED work; ideas for surface treatments that enhance nanoparticle packing are carried over from self-assembled monolayer (SAM) studies in the OTFT field. Moreover, all the work done in this thesis project was consolidated by one method, atomic force microscopy (AFM), which is discussed throughout the entire thesis.

RGB displays

atomic force microscopy (AFM)

inkjet printing

inorganic nanoparticles

organic thin-film transistors

quantum dots

self-assembled monolayer

surface treatment

Transistor en couches minces avec canal en oxyde d’indium de gallium et de zinc : matériaux, procédés, dispositifs / Indium gallium zinc oxide based thin film transistor : Materials, processes, devices

Talagrand, Clément

23 October 2015

Pour réaliser des fonctions électroniques sur support souple, le transistor en couches minces (TFT) est indispensable. Cette thèse a pour objectif d’approfondir les connaissances sur ces dispositifs.L’état de l’art est synthétisé dans le chapitre 1. Cette partie présente tout d’abord les TFT et justifie l’utilisation de l’oxyde d’indium gallium zinc (IGZO). Ensuite les propriétés de cet oxyde semi-conducteur amorphe sont traitées ; et enfin le chapitre fait état des résultats obtenus avec des TFT en IGZO.Le chapitre 2 établie un lien entre les propriétés de l’IGZO et le dépôt par pulvérisation cathodique. L’étude des films a été réalisée par ellipsométrie spectroscopique. Celle-ci a mis en évidence des variations dans les propriétés optiques dues au temps de dépôt, à la concentration en oxygène et à la position sur le substrat. Ces résultats ont été comparés à des mesures de résistivité, pour comprendre plus précisément la cause de ces variations.Le chapitre 3 élabore un procédé complet permettant de réaliser des TFT sur support souple. Le choix des différents matériaux est discuté, et les différents outils de procédés sont adaptés afin de réaliser ces dispositifs. Les TFT obtenus sont caractérisés en fonction du temps de recuit et sous flexion. Ils ont atteint des mobilités 10 cm².V-1.s-1.Le chapitre 4 étudie le dépôt d’IGZO par impression jet d’encre. Une encre a été formulée et les différents paramètres d’impression ajustés. Afin de comparer les différentes techniques de dépôt, des TFT avec canal en IGZO imprimé ont été réalisé et les films imprimés ont été caractérisé par ellipsométrie spectroscopique. Ces dispositifs ont atteint des mobilités de 0,4 cm2.V-1.s-1. / In order to carry out electronics functions on flexible substrate, thin film transistor is essential. The aim of this thesis is to increase knowledge on this device.State of art of IGZO TFT is summarized in chapter 1. This part presents thin film transistor and justify the choice of IGZO as the semiconductor material. Then, properties of this amorphous oxide semiconductor are discussed. Finally, this chapter presents the results obtained in the literature for IGZO based thin film transistor.Chapter 2 establishes a link between IGZO properties and sputtering deposition. Films are studied by spectroscopic ellipsometry. Experiments show variations in optical properties due to deposition time, oxygen content and position on the wafer. Resistivity measurements are carried out to understand more deeply the causes of these variations.Chapter 3 develops a complete process to achieve TFT on flexible substrate. The choice of different materials and processes is discussed. The performances of the TFT are investigated versus the annealing time and characterized under mechanical stress. Mobility up to 10 cm2.V-1.s-1 can be achieved after an annealing at 300°C during 1h30. Mechanical stresses show a degradation of the transistor induced by cracks in the oxide layer.Chapter 4 focuses on IGZO's deposition by inkjet printing. An ink is formulated using metallic salts and a solvents mixture. The parameters of the printing system are also optimized. To compare the different techniques of deposition, printed IGZO TFTs are characterized and compared with the one fabricated with the standard PVD deposition technique. Mobility is relatively lower and equals 0.4 cm2.V-1.s-1.

Oxyde d’Indium Gallium Zinc

Transitor en couches minces

Ellipsométrie spectroscopique

Impression jet d’encre

Indium gallium zinc oxide

Thin-film transistor

Spectroscopic ellipsometry

Inkjet printing

Fabricação e caracterização de transistores orgânicos por impressão de jato de tinta / Fabrication and characterization of organic transistors by inkjet printing

Josiani Cristina Stefanelo

02 July 2014

A tecnologia dos semicondutores inorgânicos tem dominado a indústria eletrônica por muitos anos. No entanto, com a descoberta dos polímeros condutores um esforço considerável tem sido dedicado ao estudo e às aplicações tecnológicas desses materiais em dispositivos eletrônicos, dando início a um novo ramo da eletrônica: a Eletrônica Orgânica (EO). Uma das grandes vantagens da EO reside nos métodos de processamento. Os materiais orgânicos são facilmente processados em solução, portanto permite o uso de diversas técnicas de deposição, como por exemplo, as técnicas de impressão. Dentre as técnicas de impressão, a jato de tinta é a que mostra ser mais adequada à impressão de circuitos. Ela permite depositar volumes de soluções (ou suspensões) da ordem de picolitros em cada gota mantendo padrões bem definidos. Além disso, elimina o uso de máscaras, ocasionando diminuição nos custos e desperdício de material e, por ser um método de deposição tipo não-contato, minimiza possíveis contaminações. Esta tese dedicou-se, dentro desse contexto, ao domínio da técnica de jato de tinta para a confecção de transistores de efeito de campo orgânico (OFETs) tipo p e tipo n, e com aplicação em um inversor lógico unipolar. Os OFETs impressos usaram a arquitetura top gate/bottom contact (TG/BC. Os filmes semicondutores foram formados por várias linhas impressas sobre a região dos eletrodos fonte e dreno. Para os OFETs tipo p foi utilizado o semicondutor Poli(3-hexiltiofeno) régio-regular (rr-P3HT). Foram fabricados OFETs tipo p com a impressão de linhas utilizando os quatro diferentes padrões de deposição da impressora Autodrop. OFETs tipo p com mobilidade em torno de 3x10-3 cm2/V.s e razões Ion/Ioff da ordem de 103 foram obtidos utilizando um padrão de deposição paralelo e outro perpendicular a fonte e dreno. Para os OFETs tipo n o semicondutor usado foi o Poli{[N,N\'-bis(2-octildodecil)-naftaleno-1,4,5,8-bis(dicarboximida)-2,6-diil]-alt-5,5\'-(2,2\'-bitiofeno)]} (P(NDI2OD-T2)). Dentre os OFETs tipo n impressos os melhores apresentaram mobilidades em torno de 10-2 cm2/V.s e razões Ion/Ioff de aproximadamente 5x102. Ambos os OFETs impressos foram aplicados em inversores lógicos digitais unipolares com ganhos maiores que 1. / The technology of inorganic semiconductors has dominated the industry of electronics for many years. However, since the discovery of conductive polymers considerable effort has been devoted to studies and technological applications of these materials in electronic devices, starting a new branch of electronics: Organic Electronics (OE). One of the great advantages of OE lies in the processing methods. The organic materials are easily handled in solution, thus allows the use of various deposition techniques, as for example the printing techniques. Among the techniques of printing, inkjet is showing to be more suitable for printing circuits. It allows you to deposit solutions (or suspensions) volumes on the order of picoliters in each drop, performing well-defined patterns. Furthermore, it eliminates the use of masks, resulting in reduced costs and material waste. This thesis is dedicated to the field of inkjet technique, specifically for the fabrication of organic field-effect transistors (OFETs), p-type and n-type, and application in a unipolar logic inverter. Printed OFETs used architecture top gate/bottom contact (TG/BC). The semiconductor films were formed by several printed lines on the region of the source and drain electrodes. For p-type OFETs we used poly (3-hexylthiophene ) regio-regular (rr-P3HT) as semiconducting material. The p-type OFETs were fabricated using the four different patterns of deposition of the printer Autodrop. These OFETs showed mobility around 3x10-3 cm2/V.s and Ion/Ioff ratio of the order of 103 for the deposition pattern parallel and perpendicular to source and drain. For the n-type OFETs the semiconductor used was Poly{[N,N\'-bis(2-octyldodecyl)-naphthalene-1,4,5,8-bis(dicarboximide)-2,6-diyl]-alt-5,5\'-(2,2\'-bithiophene)]} (P(NDI2OD-T2)). Among the printed n-type OFETs the best showed mobility around of 10-2 cm2/V.s and Ion/Ioff ratio of the order of 5x102. Both printed OFETs were applied in unipolar digital logic inverters, with gains greater than 1.

Eletrônica impressa

Eletrônica orgânica

Impressão por jato de tinta

P(NDI2OD-T2)

P3HT

Transistores

Inkjet printing

Organic electronics

P(NDI2OD-T2)

P3HT

Printed electronics

Transistors

Printed Biosensor Based on Organic Electrochemical Transistor / Printed Biosensor Based on Organic Electrochemical Transistor

Omasta, Lukáš

January 2019

Organické elektronické zariadenia sú vyvíjané ako vhodné riešenia senzorov pre bioelektroniku, a to najmä kvôli dobrej biokompatibilite organických polovodičov v nich použitých. Takzvané biosenzory dokážu premeniť elektrochemické procesy na elektronický signál. Matrica takýchto biosenzorov môže simultánne skenovať množstvo biologických vzoriek, alebo rôznych tkanív v živých systémoch. Aktívnou súčasťou zariadenia je organický elektrochemický tranzistor (OECT). V tejto práci je diskutovaný teoretický rámec fungovania takéhoto zariadenia, jeho elektrická charakterizácia, aplikácia v biosenzoroch na báze buniek, spôsoby výroby a aktuálnym stavom techniky v oblasti organickej elektroniky. Experimentálna časť obsahuje konkrétne výrobné postupy vývoja OECT zariadení, ktoré boli použité v našom laboratóriu. Hlavný dôraz sa kladie na schopnosť vyrobených zariadení detekovať reakciu a monitorovať stimuláciu elektrogenných buniek. Za týmto účelom boli vyvinuté matice mikroelektródových OECT zariadení založených na polovodivom polyméri PEDOT:PSS. Tieto boli vyrobené s využitím bežnými tlačiarenských techník (atramentová tlač a sieťotlač) spolu so štandardnými litografickými postupmi. Najnovšie nami vyvinuté zariadenia dosahujú najväčšieho zosílením signálu, g = 2,5 mS a časovú konštantu t = 0,15 s. Tieto zariadenia sú porovnateľné, často dokonca lepšie ako niektoré iné najmodernejšie a plne litograficky pripravené senzory.

Développement par procédé d'impression jet d'encre de composants électroniques métalliques souples / Development of inkjet printing method for flexible metal electronic components

Barral, Geoffrey

01 February 2018

L’électronique souple utilisée dans les technologies RFID et NFC est aujourd’hui en plein essor et la demande croît exponentiellement chaque année. De nombreuses applications sont possibles comme les antennes RFID et les conducteurs transparents. Pour répondre à cette demande, il est nécessaire de proposer une technologie de fabrication à bas coût. Aujourd’hui les antennes sont fabriquées en R2R (Roll to Roll) par des méthodes soustractives à des coûts trop élevé et générant des déchets. Les méthodes d’impressions, qui sont additives, permettent aujourd’hui de réaliser des objets à la demande. L’objectif de cette thèse est de développer une technologie de rupture par rapport à l'existant. Les développements actuels se faisant majoritairement sur des nanoparticules d’argent, la stratégie de la thèse a été de développer un primaire métallisable (encre catalytique) pour la métallisation par voie chimique (electroless Cuivre). Dans cette étude nous avons abordés les différentes étapes qui ont permis de sélectionner le polymère adéquat pour la métallisation par voie chimique, à basse température, d'optimiser son greffage ainsi que son incorporation dans une formulation complète d’encre catalytique. Différentes preuves de concepts ont été obtenues grâce à la technologie développée par voie jet d’encre. La métallisation electroless permet d’obtenir une résistivité de 1.8 µΩ.cm et une excellente adhésion sur des substrats souples peu onéreux de faible point de transition vitreuse comme le PET et le PVC. La température du procédé de métallisation n’excède pas 50 °C. / The flexible electronics used in RFID and RFID and NFC technologies is now a booming market and demand is growing exponentially each year. Many applications are possible, such as RFID antennas and transparent conductors. To meet this demand, it is necessary to offer a low-cost manufacturing technology. Today antennas are manufactured in R2R (Roll to Roll) by subtractive methods and at high cost and generating waste. The methods of printing, which are additive, allow today to realize objects on demand. The aim of this thesis is to develop a breakthrough technology compared to the existing one. The current developments are predominantly done thanks to silver nanoparticles, the strategy of thethesis was to develop a metallizable primer (catalytic ink) for metallization by chemical means (electroless copper). In this study we will see the different steps that allowed us to select the appropriate polymer for chemical metallization, at low temperature and optimize its grafting as well as its incorporation in a complete formulation of catalytic ink. Different proofs of concepts have been obtained thanks to the technology developed by inkjet. The metallization electroless makes it possible to obtain a resistivity of 1.8 μΩ.cm and a very good adhesion on the inexpensive flexible substrates and weak point of glass transition polymer such as PET and PVC. The temperature of the metallization process does not exceed 50 °C.

Electronique imprimée

Jet d'encre

Métallisation Electroless

Antennes RFID

Greffage

Encre métallisable

Printed electronic

Inkjet Printing

Electroless metallization

RFID antenna

Grafting

Metallizable ink

Roll-to-roll infrared and hot-air sintering of gravure-printed Ag layer based on in situ tension measuring and analysis

Park, Janghoon, Kang, Hyi Jae, Gil, Hyogeun, Shina, Kee-Hyun, Kang, Hyunkyoo

30 March 2017

This study presents a method developed to achieve the roll-to-roll sintering of printed Ag patterns based on exposure to hot air, near-infrared, and mid-infrared sources. The sintering energy was quantified and evaluated based on theoretical and experimental calculations. Moreover, the effect of the sintering energy on the web tension was simultaneously considered. / Dieser Beitrag ist aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/621

ddc:621

Tintenstrahldruck; Leitfähigkeit