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Hi, my name is Carlos and I am a researcher at UC Davis School of Medicine, Sacramento. Learning new stuff and writing about the latest topics is my hobby. I came up with Ecologia Aldia so that knowledge can be shared without any limitations. Stay in touch for more updates.

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Organic Semiconductors- Make Flexible Circuits And Screens

The days are not far, when we go, finally, will come to see ultra-effective digital circuits. Such effective digital circuits have become a possibility when the researchers have come to discover a polymer that has been said to revolutionize the method of printing electronic circuits on plastic.

This polymer is said to be an organic semiconductor. You can also get the best semiconductors from the best manufacturers of Texas instruments inc via https://www.elprotronic.com/collections/texas-instruments.

The latter polymer performs electrons, an unclear characteristic so far on other types of such materials used to make semiconductors. Necessarily, most polymers wear positive electrical charges.

Depending on the researchers, they managed to print a CMOS circuit (complementary metal metal-semiconductor) combining this last find with older semiconductors.

Thus, the combination of existing P-type materials, positive loads, and this recently developed N-type polymer that transports electrons have opened a new road for flexible or pluggable digital circuits.

These flexible semiconductors are more powerful and more efficient. "If you want to enable high-performance CMOS electronic devices, you need P-Channel and N-Channel semiconductors," Facheti also says.

This polymer, based on naphthalene bis (dicarboximide), is highly soluble, so it can be converted into ink and can be printed numerically. However, its solubility does not put its effective and high speed of electronic mobility. Its electrons mobility is between 0.45 and 0.85 cm2 / vs.

Such a speed is well superior and satisfactory relative to the number of 0.5 cm2 / vs at least 0.5 cm2 / vs, the electrons mobility rate of all existing polymers. Researchers hope to improve speed up to 1 cm2 / vs in the coming years.

 

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