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One of the challenges in Analytical chemistry is the analysis of complicated real samples. Analytical methods commonly suffer from interference and several limitations for the analysis of these samples. These limitations may be due to inherent problems of method or the nature of the sample matrix. Although electrochemical methods have several advantages, they are not exempt from this rule. Different parameters should be investigated to improve electrochemical methods for the analysis of real samples, selectivity being the most important. Inherent selectivity of dynamic electrochemical techniques is achieved when the analyte reacts in different values of applied parameters compared to potentially interfering species. In other words, the choice of applied parameter (e.g. potential in voltammetry) determines the selectivity of the measurement.
This book summarizes recent findings on the use of new nanostructured materials for biofuels, batteries, fuel cells, solar cells, supercapacitors and health biosensors. Chapters describe principles and how to choose a nanomaterial for specific applications in energy, environment and medicine.
Pathways to Green Nanomaterials: Plants as Raw Materials, Reducing Agents and Hosts is a comprehensive guide that explores the fundamental aspects, synthesis methods, and various applications of nanomaterials derived from plants. This book is designed for postgraduate researchers, engineers, and scientists in the fields of materials science, biotechnology, and chemical engineering, as well as other disciplines involved in nanomaterial production and applications. The book delves into different plant-mediated nanomaterials, analyzing their synthesis mechanisms and discussing the regulation and application prospects of plant synthesis. It covers topics such as nanocellulose, biochar materials,...
This book focuses on nanotechnology for the preparation of metal oxide–based carbon nanocomposite materials for environmental remediation. It analyses the use of nanomaterials for water, soil, and air solutions, emphasizing the environmental risks of pollution. It further explores how magnetic and activated carbon nanomaterials are being used for a sustainable environmental protection of water and soil, and detection of harmful gases. The status and major challenges of using carbon-based nanomaterials on a large scale are explained, supported by relevant case studies. Features: Exhaustively covers nanotechnology, metal oxide–carbon nanocomposites and their application in soil, water, and air treatments Explores pollutants nano-sensing and their remediation towards environmental safety Includes economics analysis and environmental aspects of metal oxide materials Describes why properties of oxide carbon–based nanomaterials are useful for environmental applications Discusses current case studies of remediation technologies This book is aimed at graduate students and researchers in nanotechnology, environmental technology, and remediation.
Among the most novel and ever-growing approaches to improving the food industry is nanobiotechnology. In this book, the prospective role of nanobiotechnology in food which includes quality control and safety through nanosensors and biosensors, targeted delivery of nutrients, controlled release of nutrients, proteins, antioxidants, and flavors through encapsulation and enzymatic reactions for food fortification of fat-soluble compounds is discussed. Along the chapters of this book, nanobiotechnological techniques are addressed in detail with specific emphasis on food science applications. Features: Discusses nanobiotechnology in food for quality control and safety Covers food processing and packaging for food safety Explores the positive role of nanomaterials towards the sustainability of food Provides efficient, real, and sustainable solutions to pertinent global problems Includes case studies and research directions of the nanobiotechnology This book is aimed at researchers and graduate students in nanotechnology and food engineering.
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This book presents concepts, methods and applications of inorganic nanomaterials for energy applications such as fuel cells and batteries, for environmental applications such as water purification, and for medicinal applications such as cancer treatments. The founding father of nanotechnology, Eric Drexler, always communicated a unique vision in exploring new materials and creating advancements in molecular nanotechnology. He emphasized the potential advantages of smaller size, higher efficiency and less needed resources for applications in energy, environment and medicine. A higher surface to volume ratio of inorganic nanomaterials is a key property.
The present book aims at providing the readers with some of the most recent development of new and advanced materials and their applications as nanosensors. Examples of such materials are ferrocene and cyclodextrines as mediators, ionic liquid crystals, self-assembled monolayers on macro/ nano-structures, perovskite nanomaterials and functionalized carbon materials. The emphasis of the book is devoted to the difference in properties and its relation to the mechanism of detection and specificity.The chapters of this book present the usage of robust, small, sensitive and reliable sensors that take advantage of the growing interest in nano-structures. Different chemical species are taken as good example of the determination of different chemical substances industrially, medically and environmentally.