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RESEARCHERS AT THE DUKE UNIVERSITY DEVELOPED THE WORLDS FIRST FULLY RECYCLABLE PRINTED ELECTRONICS

RESEARCHERS AT THE DUKE UNIVERSITY DEVELOPED THE WORLD’S FIRST FULLY RECYCLABLE PRINTED ELECTRONICS

With the increase in demand for wearable electronic devices, the need for flexible, thin, and compact electronic circuits also arises. Wearable devices and many other sophisticated systems need sensors that can be attached to various kinds of surfaces or substrates. Therefore, it is necessary for the sensors to be flexible and also hold the same

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ELECTROMAGNETIC NEAR FIELD PCB PROBES ARE OPEN SOURCE1

ELECTROMAGNETIC NEAR-FIELD PCB PROBES ARE OPEN SOURCE

In modern compact electronic circuits, there are several components on a confined PCB area, and so, the electromagnetic effects induced from one component may affect the surrounding components. This disturbance is known as Electromagnetic Interference (EMI). The source of the radiation must be identified in PCBs to predict the EMC of electronic circuits.Β Electromagnetic compatibilityΒ (EMC)Β is the

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