Hybrid Nanostructures As Solid State Sensors For Iot
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Hybrid Nanostructures as Solid-State Sensors for IoT
The book provides an in-depth discussion of various Hybrid Nanostructures as solid-state sensors in the context of the Internet of Things (IoT). It explains the vital role that sensors play in IoT to aid in discovering what possibilities ought to be addressed to make the data more meaningful. The book highlights the applicability of biosensing field effect transistor (FET) technology with a specific emphasis on the progress being made in integrating existing FET technology and nanotechnology, using semiconductor nanowires and organic structures. • Offers in-depth discussion on Hybrid Nanostructures as solid-state sensors • Elaborates upon the fabrication of gas sensors using metal oxide semiconductor nanostructures • Studies biosensors based on metal oxide semiconductor nanostructures • Discusses the suitability of various Hybrid Sensors in solving the problems of the Internet of Things (IoT) • Provides extensive support for the development of Hybrid Nanostructures as solid-state sensors The book is meant for researchers and scholars of Computer Science and associated disciplines. It also serves as a valuable reference for graduate students, researchers, seeking to deepen their knowledge and engage with the latest advancements in these Hybrid Nanostructures as solid-state sensors.
Advanced Energy Materials
Author: Sushil Kumar Verma
language: en
Publisher: Walter de Gruyter GmbH & Co KG
Release Date: 2025-07-21
The global transition toward renewable energy is imperative for a sustainable future. As the demand for cleaner and more efficient energy sources grows, the role of advanced materials, particularly sustainable and natural polymers, has become increasingly significant. These materials offer innovative solutions for improving energy generation, storage, and efficiency while reducing environmental impact. From lightweight composites enhancing wind turbine performance to biodegradable polymers optimizing energy storage devices, sustainable materials are reshaping the landscape of energy technology. The book explores the transformative potential of bio-based and eco-friendly materials in various renewable energy applications. Through in-depth discussions, the book highlights key advancements in polymer science, including biodegradable materials for solar panels, bio-based catalysts for bioenergy production, and self-healing coatings for energy devices. Additionally, it delves into innovative recycling methods and resource management strategies that enhance the lifecycle of renewable technologies.
Zinc Oxide Nanostructures
Zinc oxide (ZnO) in its nanostructured form is emerging as a promising material with great potential for the development of many smart electronic devices. This book presents up-to-date information about various synthesis methods to obtain device-quality ZnO nanostructures. It describes both high-temperature (over 100° C) and low-temperature (under 100° C) approaches to synthesizing ZnO nanostructures; device applications for technical and medical devices, light-emitting diodes, electrochemical sensors, nanogenerators, and photodynamic therapy; and the concept of self-powered devices and systems using ZnO nanostructures. The book emphasizes the utilization of non-conventional substrates such as plastic, paper, and textile as new platforms for developing electronics.