Order in thin organic films

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Kilo, mega, giga, tera, peta, exa, zetta are among the list of prefixes used to denote the quantity of something, such as a byte This was last updated in March SOC is Login Forgot your password?

Forgot your password? No problem! For applications both polymeric materials and molecules with a lower molecular weight are well suited.


The easy processibility of polymeric materials, in most cases from the solution, makes them especially suitable for low cost commercial applications in opto-electronic technologies, whereas crystalline molecular organic materials exhibit advantageous transport properties compared to their polymeric counterparts. The high performance of devices based upon small organic molecules is attained through the high degree of the molecular ordering, even an epitaxial film growth can be achieved.

This technical analysis is crucial because most barrier technologies remain technically constrained given the challenging market requirements in terms of performance, flexibility, thinness, cost, and so on. Our technology assessment offers a critical benchmarking of the various existing and emerging solutions and gives its view as to how the technology mix will be transformed in each application sector over the short-, medium- and long-terms.

For each application, we provide a detailed assessment of the application itself, looking at its past, present and future. Here, we outline the technical and commercial challenges and prospects at the application-level and analyse the role that the barrier can play in aiding or hindering further commercial progress. This is a critical chapter because different applications have different needs in terms of performance, cost, flexibility, and size. We also provide ten-year market forecasts, in sqm and value, segmented by technology as well as by application.

Optical Properties of Organic Thin Films

This enables one to understand which technologies will win in what applications, and why. It also helps plan by knowing short-, medium-, and long-term market sizes for various barrier technologies. Note that our forecasts are built up our detailed technical know-how, our long-standing engagement with the community, and our deep understanding of all its end use markets. Our costs projections are based on our inhouse bottom-up cost models. Finally, throughout the report, we identify and assess the progress made by different companies and leading research institutes in developing barrier film or TFE technologies.

This enables you to develop a solid understanding of the value chain. It took a decade and half to enable the first commercial products using a flexible barrier or thin film encapsulation technologies.

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Contrary to some assumptions however, this success does not mean that the question of barrier technology is forever settled. Indeed, there is still much work to do to render flexible barrier technology a ubiquitous, widely-available, and low-cost component in devices of all sizes, sensitivity levels, flexibility degrees, and so on. Note that exact figures are available in the report.

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Further note that the order in which the legend is shown does not correspond sequentially to the figure. For more information consult our report. This technology is now being readied for bendable displays too.

Optical Properties of Organic Thin Films

Our report forecasts the market for barrier technologies in plastic and flexible OLED displays. This is a significant market.

Nucleation and strain-stabilization during organic semiconductor thin film deposition

Indeed, flexible displays are finally on the cusp of commercialization, likely creating a long-lasting new technology paradigm. How large will these markets be in sqm and value terms? Inline TFE will dominate in flexible small-sized devices but can it transition to large-area screens? And importantly how will the inline TFE technology itself adapt in terms of materials and processes for top and bottom barriers? But many questions abound: will continued improvements in QD air stability relax barrier performance requirements, thus shrinking the market in value terms?

Heterostructures Based on Porphyrin/Phthalocyanine Thin Films for Organic Device Applications

QD displays will grow but can film-type integration keep its monopoly, or will it be replaced by other approaches such as color filter or on-chip type QDs? In total, how large will the market be in sqm and value terms? Who are the key players today?