Flexible Electronics

Researchers from Stanford University developed a new method for the manufacture of circuits that are more effective than carbon nanotubes (CNT). This achievement opens the way for the folding Electronic Instrument. Engineers hope to make their electronic devices folding, as electronic reader (e-reader) which can be folded and placed in the pocket.
And the approach to the manufacture of this type of device was the making of electronic circuit fiber tubes known as carbon nanotubes (CNT) and to compensate the circuits of silicon chips. But the reliability is important property for the success of this shift in the electronics industry as the silicon circuits manufactured in a way that allows the passage of current smoothly even in the case of changes in ability. This is a big challenge for CNT. But now a team of Stanford University was able to make flexible circuits CNT that is able to afford the same level of ability changes as in silicon circuits. Historically, the circuit consisting of transistors of the Class P and Class N, and that operate effectively even with changes in the ability, was the most important discoveries in the field of electrical engineering. Professor Zinin Jiabao, a professor of chemical engineering at Bustanfor, says “This is the first time that someone was able to make a flexible circuit CNT that uses less energy and has immunity against the "electrical noise". This has been discussed in detail in the "Publications of the National Academy of Sciences of the United States" describing the method employed by the architects of Stanford in the manufacturing of hard CNT where it was processed by a chemical stimulator (developed by the same team), known as (DMBI). They also used the printer "ink jet" for placing the material in a specific place within the circuit, but greater efforts should be made to commercialize this product.