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This paper compares classical CMOS logic gates with their Schmitt trigger (ST) versions, when sized both conventionally as well as unconventionally. The reason for studying ST logic gates is due to their positive feedback which leads to hysteresis and, more importantly, to their better static noise margins (SNMs)—than classical CMOS logic gates. Obviously, the larger SNMs make ST logic gates less...
Silver nanowires (AgNWs) transparent electrodes have attracted considerable attention owing to their high electrical and thermal conductivity, optical transparency, flexibility on many polymer substrates, and simple solution process. Many reports only focused on improving the performance of AgNWs electrodes while ignored the application lifetime considering that silver nanomaterials are susceptive...
Capacitive touch screens have become an integral component of our everyday lives, from smartphones and tablets to wearable devices, smart-home devices, smart automobiles, entertainment on airplanes, and even in public places such as hotels or shopping malls. As alternative transparent conductive materials to traditional Indium Tin Oxide (ITO) are considered, silver nanowires are among the nanomaterials...
Consecutive systems are attractive due to their potential for enhancing nano-architectures, as being able to significantly boost reliability. Additionally, communication at the nanoscale is also going to need methods allowing to achieve lower transmission bit error rates. In particular, nano-technologies like, e.g., molecular, nano-magnetic, nano-fluidic, and even FinFETs, should benefit from consecutive...
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