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4 produkter
4 produkter
E-bok
PDF, Engelska, 2026992 kr
Läs direkt efter köp
This book comprehensively: Covers material for nanowires, device models, and applications for circuit design based on nanowire field-effect transistors Explains a wide spectrum for designing robust multi-gate nanowire devices and low-power circuits Highlights the conventional and novel nanomaterials, devices, and circuits, leakage current mitigation techniques, and important tradeoffs along with exhaustive analysis Includes nanowire device structures and modeling along with MATLAB(R) codes Offers an in-depth insight into the temporal degradation awareness and interconnects delay, which provides inside exposure to the impact of reductions in speed and consumption of more power The text is primarily written for senior undergraduates, graduate students, and academic researchers in electrical engineering, electronics and communications engineering, materials science, nanoscience, and nanotechnology.
E-bok
Engelska, 2026992 kr
Läs direkt efter köp
This book comprehensively: Covers material for nanowires, device models, and applications for circuit design based on nanowire field-effect transistors Explains a wide spectrum for designing robust multi-gate nanowire devices and low-power circuits Highlights the conventional and novel nanomaterials, devices, and circuits, leakage current mitigation techniques, and important tradeoffs along with exhaustive analysis Includes nanowire device structures and modeling along with MATLAB(R) codes Offers an in-depth insight into the temporal degradation awareness and interconnects delay, which provides inside exposure to the impact of reductions in speed and consumption of more power The text is primarily written for senior undergraduates, graduate students, and academic researchers in electrical engineering, electronics and communications engineering, materials science, nanoscience, and nanotechnology.
Inbunden, Engelska, 2026
2 066 kr
Skickas inom 10-15 vardagar
This book comprehensively:Covers material for nanowires, device models, and applications for circuit design based on nanowire field-effect transistorsExplains a wide spectrum for designing robust multi-gate nanowire devices and low-power circuitsHighlights the conventional and novel nanomaterials, devices, and circuits, leakage current mitigation techniques, and important tradeoffs along with exhaustive analysisIncludes nanowire device structures and modeling along with MATLAB® codesOffers an in-depth insight into the temporal degradation awareness and interconnects delay, which provides inside exposure to the impact of reductions in speed and consumption of more powerThe text is primarily written for senior undergraduates, graduate students, and academic researchers in electrical engineering, electronics and communications engineering, materials science, nanoscience, and nanotechnology.
E-bok
Engelska, 2026871 kr
Läs direkt efter köp
Recent Advances in Semiconductor Device Research & Applications provides a contemporary overview of next-generation semiconductor devices designed for low-power, high-speed, and high-performance electronic systems. The book focuses on emerging device architectures that address the limitations of traditional scaling, with emphasis on TFETs, advanced CMOS technologies, nanoelectronics, and biosensing applications.It is structured from fundamental concepts to advanced research topics, beginning with semiconductor device basics and TFET principles. It then explores applications such as photosensors, carbon-based and quantum devices, ISFET biosensors, and deep submicron CMOS SRAM designs. Advanced chapters cover heterojunction TFETs, negative capacitance devices, nanostructured transistors, and low-power circuit applications.Key Features:-Covers next-generation semiconductor devices and architectures-Focuses on TFETs, CMOS scaling, nanoelectronics, and biosensors-Integrate theory with current research trends and applications-Discussion of advanced devices, including negative capacitance and heterojunction TFETs-Gives Practical circuit-level implementations for low-power systems