Название: Nanotechnology in Electronics, Photonics, Biosensors and Energy Systems Автор: F. Jain, C. Broadbridge, M. Gherasimova, H. Tang Издательство: World Scientific Publishing Серия: Selected Topics in Electronics and Systems Год: 2024 Страниц: 256 Язык: английский Формат: pdf (true) Размер: 30.5 MB
This unique compendium consists of peer-reviewed articles spanning from novel growth of materials for nanoelectronic and nanophotonic devices, electronic nose sensor array, bio-nano-systems, Artificial Intelligence/Machine Learning, and emerging technologies, to applications in each of these fields. Systems implementing additively manufactured RF devices for communication, packaging, remote sensing, compact multi-bit FETs and memories are also included. Plasmonic nanostructures with electrical connections have potential applications as new electro-optic devices. Quantum dot-based devices are discussed with regard to optical logic gates, mid-infrared photodetectors, gain and index tailored external cavity high power lasers. Contributed by eminent researchers, this useful reference text broadly illustrates relevant aspects of high-performance materials and emerging nanodevices for implementing high-speed electronic systems.
Systems implementing additively manufactured RF devices for communication, packaging, remote sensing, compact multi-bit FETs and memories are also included in this special issue on high performance materials for implementing high-speed electronic systems.
Plasmonic nanostructures with electrical connections have potential applications as new electro-optic devices. Quantum dot based devices are discussed with regard to optical logic gates, mid-infrared photodetectors, gain and index tailored external cavity high power lasers.
In the area of material synthesis, nanostructured filters for plastic particle filtration are illustrated. Additive manufacturing techniques such as inkjet printing to sustainably accelerate the massive deployment of 5G/mm-Wave systems including multiple-input, multiple-output (MIMO) tile-based phased array are presented.
Quantum dot random access nonvolatile memories, Gate all around (GAA) quantum dot channel (QDC), and spatial wavefunction switched (SWS) FETs for high-speed multibit logic and compute in memory applications are additional topics included.
Compute-in-memory (CIM) technology is one of the emerging solutions towards efficient data transfer between logic processor and memory by computing within the memory macro. Static random access memory (SRAM)-based CIM has attracted the attention of researchers for its access speed, write energy and compatibility with CMOS technologies. Architectures and techniques for SRAM-based CIM were reported using conventional MOSFETs in CMOS technology. The efficiency of the in-memory computation can be increased by handling multiple bits in the same clock cycle. Earlier, in-memory computing using various NVRAMs has also been reported. Quantum dot (QD) NVRAMs have been suggested for multi-bit in-memory computing. In this work, we present spatial wavefuncion switched (SWS)-quantum dot channel (QDC) field effect transistor (FET) based memory structure for CIM applications.
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