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Fundamentals Of Organic Electronics Training | Crash Course

Fundamentals Of Organic Electronics Training | Crash Course: Organic electronics, a branch of modern electronics dealing with organic materials, represents a radical shift in modern technology.

The materials used in this kind of technology, small molecules and polymers, are carbon based, which is the same as the molecules of living things.

Beneficial properties of polymeric conductors include their electrical conductivity that can be varied by the concentrations of dopants. Relative to metals, they have mechanical flexibility. Some have high thermal stability.

The discovery of electrically conductive polymers drastically changed our views on polymer materials and formed the basis of organic electronics. Thirty years later, a lot of success has been achieved in this field and the discovery of conductive polymers has led to interdisciplinary development among physicists, chemists and engineers in terms of industrial applications.

For about 10 years after the discovery of conductive polyacetylene, research on conductive organic materials remained in the field of chemistry and solid-state physics. No application in electronics was involved at this stage. Then in the mid-1980s, the interest for organic conductive materials increased in the field of engineering and applied physics.

Today, there is considerable interest in the potential commercial applications in the field of organic electronics.

Organic light-emitting diodes (OLEDs) are in production and have gained market share as active displays for cellular telephones, cameras and televisions. Organic thin-film transistors (OTFTs) and organic solar cells (OSCs) currently receive levels of attention rivaling that received by their silicon-based analogs, while organic-based electrochromic devices (ECDs) can be readily functionalized to fit almost any designer niche.

Organic solar cells are of particular interest because they could cut the cost of solar power by making use of inexpensive organic polymers rather than the expensive crystalline silicon used in most solar cells. Polymers can also be processed using low-cost equipment such as ink-jet printers or coating equipment employed to make photographic film, which reduces both capital and operating costs compared with conventional solar-cell manufacturing.

Fundamentals Of Organic Electronics Training | Crash Course

Tonex offers Fundamentals Of Organic Electronics | Crash Course, a 3-day crash course covering trends in today’s rapidly changing electronics industry.

Who Should Attend

·         Engineers

·         Students

·         Investors in organic electronic devices

·         Anyone interested in advances in the organic electronics field

Why Choose Tonex?

–Presenting highly customized learning solutions is what we do. For over 30 years Tonex has worked with organizations in improving their understanding and capabilities in topics often with new development, design, optimization, regulations and compliances that, frankly, can be difficult to comprehend.

–Ratings tabulated from student feedback post-course evaluations show an amazing 98 percent satisfaction score.

–Reasonably priced classes taught by the best trainers is the reason all kinds of organizations from Fortune 500 companies to government’s most important agencies return for updates in courses and hands-on workshops

For more information, questions, comments, Contact us.


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