RISS 검색 - 해외학술지논문 상세보기

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다국어 초록 (Multilingual Abstract)

Through the use of solution‐based materials, the field of printed organic electronics has not only made new devices accessible, but also allows the process of manufacture to move toward a high throughput industrial scale. However, while solution‐based active layer materials in these systems have been studied quite intensely, the printed electrodes and specifically the transparent conductive anode have only relatively recently been investigated. In this progress report, the use of metal nanoparticles within printed organic electronic devices is highlighted, specifically their use as replacement of the commonly used indium tin oxide transparent conductive electrode within organic photovoltaics (OPVs) and organic light emitting diodes (OLEDs). A cross fertilization between the applications is expected since an OPV device is essentially an inversely operated OLED. This report aims to highlight the use of inkjet‐printed nanoparticles as cost‐effective electrodes for printed optoelectronic applications and discusses methods to improve the conductive and interfacial properties. Finally, in an outlook, the use of these types of metal nanoparticle inks to manipulate light management properties, such as outcoupling, in the device is investigated.
The development process of implementing inkjet‐printed transparent conductive electrodes in optoelectronic devices is highlighted; first, by introducing the process of overcoating and embedding Ag nanoparticle‐based grids, second by implementing Cu nanoparticle‐based grids and examining them with regard to their compatibility to low temperature sintering procedures. In an outlook, the important aspect of light management in optoelectronic devices is discussed.