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Proceedings Paper • Open Access

Organic optoelectronics rhapsody (Conference Presentation)
Author(s): Bernard Kippelen

Paper Abstract

We live in a world in flux with technology changing at a pace unprecedented in human history. Over the past decade, a powerful wave of innovation based on digital platforms and apps has arisen due to their wider dissemination in our hyper-connected world. In the next decade, “deep” technologies will play a major role in pushing further the technological frontiers. Deep-tech innovations lie at the crossroads of massive shifts in demand led by megatrends (such as global climate change, demographic shifts, resource scarcity) and scientific progress (such as the fusion of the physical, digital and biological domains). Deep technologies are disruptive solutions built around unique, protected or hard-to-reproduce technological or scientific advances. In that next wave of innovation, advances in new materials and processing methods will continue to play a central role. In this talk, we will discuss how printable organic conjugated semiconducting molecules and polymers are creating new disruptive technologies that are impacting all industries. We will present recent advances in various solid-state device platforms including, organic light-emitting diodes (OLEDs), organic photodetectors (OPDs), organic photovoltaic devices (OPVs), and organic thin-film transistors (OTFTs). We will emphasize the importance of interfaces in devices and show examples on how to engineer their electrical properties. We will present a simple processing technique for the electrical doping of organic semiconductors over a limited depth near the surface of the film that is based on immersing the film into a polyoxometalate solution. Such approached can drastically reduce the fabrication cost of such devices, simplify device architecture, and lead to all-organic devices fabricated by all-additive printing techniques. As an illustration of the simplicity and versatility of this process we will discuss how high-performance organic solar cells with simplified architecture can be implemented. Finally, we will present the results of a detailed operational lifetime study of OTFTs showing that organic photonics and electronics can yield a stability level superior to that of amorphous silicon.

Paper Details

Date Published: 18 October 2019
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Proc. SPIE 11165, Optical Materials and Biomaterials in Security and Defence Systems Technology XVI, 1116502 (18 October 2019);
Show Author Affiliations
Bernard Kippelen, Georgia Institute of Technology (United States)


Published in SPIE Proceedings Vol. 11165:
Optical Materials and Biomaterials in Security and Defence Systems Technology XVI
Roberto Zamboni; François Kajzar; Attila A. Szep, Editor(s)

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