Nanotechnology Based Sensors For Detection Of Environmental Pollution
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Nanotechnology-based Sensors for Detection of Environmental Pollution
Author: Fernanda Maria Policarpo Tonelli
language: en
Publisher: Elsevier
Release Date: 2024-05-09
Nanotechnology-based Sensors for Efficient Detection of Environmental Pollution discusses the use of nanotechnology to generate sensors capable of performing efficient detection of different types of environmental pollutants. Nanomaterial's characteristics such as large surface area, good reactivity, and possibility to suffer chemical surface modification to recognize different types of molecules are useful, especially to perform the detection of specific environmental pollutants. Innovative and efficient ways to detect environmental pollution are urgently needed for sustainability and the nanotechnology field has an enormous potential to offer strategic solutions. Nanotechnology-based sensors offer an efficient way of detecting the presence of contaminants and determine its structure and chemical nature is by applying nanotechnology and/or nanobiotechnology. This book will contain 5 parts: the first one will be dedicated to exploring environmental pollution as a threat to life on Earth and main contaminants (inorganic, organic or pathogens) and the risk they represent to living beings. The second part will be dedicated to nanotechnology allowing pollutants' detection covering a brief history of nanotechnology-based sensors, different types of nanotechnology-based sensor (optical, electrochemical, and magnetic), nanotechnology-based sensors' design and fabrication and nano biosensors. The third part will be focused on important specific pollutants (pesticides, heavy metal, dyes, toxic gas, pharmaceutical waste, petroleum hydrocarbons, and pathogenic microbes) and their detection by nanotechnology-based sensors. The fourth part will be dedicated to important nanomaterials in nanotechnology-based sensors, exploring carbon-based and non-carbon-based material in nanoscale (graphene, carbon nanotubes, quantum dots, magnetic nanomaterials, non-magnetic nanoparticles) and also point-of-care sensors and functionalization to generate optimized nanotechnology-based sensors to pollutants' detection. The fifth and last part of Nanotechnology-based Sensors for Efficient Detection of Environmental Pollution will address relevant practical aspects related to nanotechnology-based sensors, covering advantages and challenges, safety, economic and commercial aspects related to the field and also sustainability, highlighting green nanomaterials on nanotechnology-based sensors. - Provides a comprehensive, multidisciplinary review of nanotechnology-based sensors - Supplies readers extensive knowledge on detecting harmful pollutants in different environments using nanotechnology-based sensors - Presents chapters dedicated to the detection of pollutants different from toxic gas and pharmaceutical products, such as pesticides, heavy metals, dyes, pathogens, and petroleum hydrocarbons - Introduces information on pollutants and the threats they represent to living beings, nanotechnology-based sensor's design and fabrication, a brief history of the field, and practical issues related to the field, such as economics, safety, and challenges
Green Nanobiotechnology
This book provides a comprehensive exploration of green nanotechnology covering principles, applications, and ethical considerations.Green Nanobiotechnology begins with an introductory exploration of nanotechnology, followed by in-depth discussions on the synthesis of ozone-friendly nanomaterials and the emerging practice of green synthesis. It delves into the diverse applications of green nanoparticles, spanning biomedical applications, tissue engineering, biosensors, antimicrobials, and vaccine development. It explores applications of nanotechnology in environmental sciences including bioremediation, microengineered ceramics for environmental protection, and the modification of advanced nano-polymer composites. The environmental fate and ecotoxicological implications of nanomaterials are thoroughly examined, followed by discussions on the energy-saving potential and sustainable fuel development in the realm of green nanotechnology. The book concludes with a focus on responsible and ethical considerations, addressing the legal, socio-economic, and ethical impacts of nanotechnology, making it an important resource for researchers, academics, and professionals in nanobiotechnology and biomedical sciences.
Nanosensors for Smart Cities
The intelligent sensor network provides the information required to monitor and manage the operations and services of modern cities, including traffic and transportation systems, street-lighting systems, power plants, water supply networks, waste management, libraries, hospitals, schools and universities. As cities become increasingly high-tech, the global market for nanosensors for use in smart products and devices is expanding. Nanomaterials based sensors (nanosensors) can offer many advantages over their microcounterparts, including lower power consumption, high sensitivity, lower concentration of analytes, and smaller interaction distance between object and sensor. With the support of artificial intelligence (AI) tools, such as fuzzy logic, genetic algorithms, neural networks, and ambient-intelligence, sensor systems are becoming smarter. Nanosensors for Smart Cities covers the fundamental design concepts and emerging applications of nanosensors for the creation of smart city infrastructures. Examples of major applications include for logistics management, where nanosensors could be used in active transport tracking devices for smart tracking and tracing, and in agri-food productions, where nanosensors are used in nanochips for identity, and food inspection, and smart storage. This book is essential reading for researchers working in the field of advanced sensors technology, smart city technology and nanotechnology, and stakeholders involved in city management. Provides information on the fabrication and fundamental design concepts of nanosensors for intelligent systems Explores how nanosensors are being used to better monitor and maintain infrastructure services including street lighting, traffic management and pollution control Assesses the challenges for creating nanomaterials-enhanced sensors for mass-market consumer products