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This book presents latest research results on synthesis and application of metallic nanomaterials. Fabrication techniques, analytic properties, as well as theoretical aspects are discussed. Size- and shape-controlled synthesis of silver, gold, copper, ruthenium, tellurium, selenium and palladium nanoparticles are reviewed. Further topics are the synthesis from microplasma and shape-control for electrocatalytic applications.
This book presents latest research results on synthesis and application of metallic nanomaterials. Fabrication techniques, analytic properties, as well as theoretical aspects are discussed. Size- and shape-controlled synthesis of silver, gold, copper, ruthenium, tellurium, selenium and palladium nanoparticles are reviewed. Further topics are the synthesis from microplasma and shape-control for electrocatalytic applications.
This is the first volume (Part A) in the series of books covering practical aspects of synthesis and characterization of various categories of nanomaterials taking into consideration the most up to date research publications. The aim of the book series is to provide students and researchers practical information such as synthetic procedures, characterization protocols and mechanistic insights to enable them to either reproduce well established methods or plan for new syntheses of size and shape controlled nanomaterials based on both batch and continuous flow reactions. The first Volume (Part A) focuses on metallic nanomaterials.
A state-of-the-art reference, Metal Nanoparticles offers the latest research on the synthesis, characterization, and applications of nanoparticles. Following an introduction of structural, optical, electronic, and electrochemical properties of nanoparticles, the book elaborates on nanoclusters, hyper-Raleigh scattering, nanoarrays, and several applications including single electron devices, chemical sensors, biomolecule sensors, and DNA detection. The text emphasizes how size, shape, and surface chemistry affect particle performance throughout. Topics include synthesis and formation of nanoclusters, nanosphere lithography, modeling of nanoparticle optical properties, and biomolecule sensors.
From a political, societal and scientific point of view, it is imperative to counteract global warming and overcome energy scarcity. From a scientific perspective, nanostructured materials play a crucial role in achieving these goals, e.g. in the development of energy-saving light-emitting diodes, solar cells, rechargeable batteries or gas storage technologies. However, the potential design of the structure-related properties of such nanostructured compounds requires in-depth knowledge and strict control of their crystallization processes, which can be achieved by monitoring the corresponding chemical reactions in situ. This book is aimed at undergraduate and graduate students who wish to gain an overview of the applications, synthesis, or in situ characterization of inorganic nanostructured compounds such as lanthanide-based materials, quantum dots, magnetic nanoparticles, bioceramics, battery electrodes, and metal-organic frameworks.
This book describes the different methodologies for producing and synthesizing silver nanoparticles (AgNPs) of various shapes and sizes. It also provides an in-depth understanding of the new methods for characterizing and modifying the properties of AgNPs as well as their properties and applications in various fields. This book is a useful resource for a wide range of readers, including scientists, engineers, doctoral and postdoctoral fellows, and scientific professionals working in specialized fields such as medicine, nanotechnology, spectroscopy, analytical chemistry diagnostics, and plasmonics.
This book summarizes nanotechnology-based agricultural research for crop productivity and the management of various plant pathogens. It deals with the application of nano-molecules for quick, cost-effective, and precise plant disease diagnostic procedures, plant pests and disease management, nano-pesticides, and nano-diagnostics. Further, it explains nanomaterials for biotic stress management, with an insight into the synthesis and modification of nanomaterials and their potential applications in different domains for disease management. Features include: Compilation of current research on the Nanomaterials as well as their versatile applications in plant biotic stress management Description of the role of nanomaterials as enzyme-mimicking nanoparticles, nano-pesticides, nano-fertilizers, and nanomaterials Review of day-to-day problems related to crop plants, their diagnostics, and stress management Exploration of trends in nanomaterial utility in diagnostics, enzyme-mimicking, and crop protection, and their possible role in plant disease management Study of pertinent nanomaterials including synthetic strategies, properties, chemistry, and applications This book is aimed at researchers and graduate students in plant pathology, genetic engineering, environmental science, botany, bioengineering, and nanotechnology.
Environmental Functional Nanomaterials covers the molecular structure and properties of nanomaterials used to remove refractory pollutants from industrial wastewaters and the environment with high efficiency. Insights into the innovations in the production of these new nanomaterials are provided. This book is ideal for career starters and students of materials science, environmental science, and chemistry.
Aerosol science and engineering is a vibrant field of particle technology and chemical reaction engineering. The book presents a timely account of this interdisciplinary topic and its various application areas. It will be of interest to scientists or engineers active in aerosol physics, aerosol or colloid chemistry, atmospheric processes, and chemical, mechanical, environmental and/or materials engineering.
This is the second volume in the series of books covering practical aspects of synthesis and characterization of various categories of nanomaterials taking into consideration the most up to date research publications. The aim of the book series is to provide students and researchers practical information such as synthetic procedures, characterization protocols and mechanistic insights to enable them to either reproduce well established methods or plan for new syntheses of size and shaped controlled nanomaterials. The second volume focuses on multifunctional nanomaterials.