Описание: Environmental Applications of Carbon Nanomaterials-Based Devices
Explore this insightful treatment of the function and fabrication of high-performance devices for environmental applications
Environmental Applications of Carbon Nanomaterials-Based Devices delivers an overview of state-of-the-art technology in functionalized carbon nanomaterials-based devices for environmental applications. The book provides a powerful foundation, based in materials science, on functionalized carbon nanomaterials in general, and environmental science and device fabrication in particular. The book focuses on the chemical and physical methods of functionalization of carbon nanomaterials and the technology of device fabrication, including lab-on-a-chip approaches and applications such as wastewater purification and gas sensing. It provides readers with a thorough understanding of effective environmental remediation techniques performed with carbon nanomaterials-based devices.
In addition to topics such as cross-linked graphene oxide membranes assembled with graphene oxide nanosheets, free-standing graphene oxide-chitin nanocrystal composite membranes for dye adsorption and oil/water separation, and in-situ grown covalent organic framework nanosheets on graphene for membrane-based dye/salt separation, readers will also benefit from the inclusion of:
A thorough introduction to charge-gated ion transport through polyelectrolyte intercalated amine reduced graphene oxide membranes
An exploration of hydrotalcite/graphene oxide hybrid nanosheets functionalized nanofiltration membrane for desalination
A discussion of the incorporation of attapulgite nanorods into graphene oxide nanofiltration membranes for efficient dyes wastewater treatment
An examination of attapulgite nanofibers and graphene oxide composite membranes for high-performance molecular separation
Perfect for materials scientists, analytical chemists, and environmental chemists, Environmental Applications of Carbon Nanomaterials-Based Devices will also earn a place in the libraries of sensor developers seeking a one-stop resource for high-performance devices and sensors useful for environmental applications.
Описание: This book highlights the synthesis/fabrication of novel materials for different kinds of optical applications. It covers all aspects of optical applications starting from LED/Lasers, SERS, bio-sensing, bio-imaging and non-linear optical applications such as optical limiting, saturable absorbers etc.
Environmental devices help in monitoring the collection of one or more measurements that are used to access the status of an environment. Today, environmental monitoring and analytical methods are among the most rapidly developing branches of analysis. The functionalization of nanomaterials in the field of environmental science has increasing importance with regards to the fabrication of devices. Functionalized nanomaterials reformulate new materials and advanced characteristics for improved application in comparison to old fashion materials and open an opportunity for the development of devices for introducing new technology and techniques for monitoring environmental challenges. The monitoring of these environmental challenges in advances have direct impact on health and sustainability.
Functionalized nanomaterials have different mechanical, absorption, optical or electrical properties than original nanomaterials. In fact, major utilization of nanomaterials occurs in their functionalized forms, which are very different from the parent material. This handbook provides an overview of the different state-of-the-art materials, devices and environmental applications of functionalized nanomaterials. In addition, the information offers a platform for ongoing research in the field of environmental science and device fabrication. The main objective of this book is to cover the major areas focusing on the functionalization of nanomaterials, device fabrication along with different techniques and environmental applications of functionalized nanomaterials-based devices.
This is an important reference source for materials scientists, engineers and environmental scientsts who are looking to increase their understanding of how functionalized nanomaterial-based devices are being used for environmental monitoring applications.
Helps the reader to understand the basic principles of functionalization of nanomaterials
Highlights fabrication and characterization methods for functionalized nanomaterials-based environmental monitoring devices
Assesses the major challenges of creating devices using functionalized nanomaterials on a mass scale
Описание: ForewordPrefaceI Molecular Modelling & Magic Clusters1. Molecular Modelling1.1. Concepts of Molecular Modelling1.1.1. Areas of Molecular Modelling1.1.2. The Basics of Molecular Modelling1.2. Molecular Mechanics1.2.1. Force Field Equation1.2.2. Minimization Procedure1.2.3. Optimization Methods1.2.4. Gradient Methods1.2.5. General Newton-Raphson Method1.3. Molecular Dynamics1.3.1. Trajectory and Equation of Motion1.3.2. Initialization of Positions and Velocities1.3.3. Verlet Algorithm1.3.4. Leap-Frog Algorithm1.4. Ab Initio Quantum Chemical Methods1.4.1. Some Basics of Quantum Mechanics1.4.2. The Hamiltonian1.4.3. Time-dependent Schrцdinger Equation1.4.4. Hartree-Fock Theory1.4.5. Post Hartree-Fock1.5. Density Functional Theory1.5.1. Kohn-Sham Equations1.5.2. Local (Spin) Density Approximation1.5.3. Non-Local Density-Gradient Corrections1.5.4. Hybrid Functionals1.5.5. Chemistry Software2. Magic Numbers & Clusters2.1. Atomic Clusters and Magic Numbers2.2. What are Orbitals and Shells2.2.1. The Structure of Atom2.2.2. Shell Structure of Nucleons2.2.3. Shell Structure of Condensed Clusters2.2.4. Shell Structure of Hollow Clusters2.3. Magic Numbers in Nature2.3.1. Magic Numbers of Electron Shells2.3.2. Magic Numbers of Nuclear Shells2.3.3. Magic Electronic Shells of Clusters2.3.4. Magic Filled Shells of Clusters2.3.5. Magic Hollow Shells of Clusters2.3.6. Magnetic Shells of Electrons3. Alkali Metal Clusters3.1. Alkali Metals3.2. Lithium Metal Clusters3.2.1. Production of Metal Clusters3.2.2. Lithium Atom3.2.3. Lithium Clusters3.2.4. Experimental Evidence3.2.5. Lin Clusters For n 3.2.6. Lin Clusters For n 3.2.7. Lin Clusters For n 3.2.8. Lin Clusters For n 3.3. Sodium Metal Clusters3.3.1. Sodium Atom3.3.2. Sodium Clusters3.3.3. First Study on Small Na Clusters3.3.4. Electronic Shells of Na Clusters3.3.5. Jellium Model for Na Clusters3.3.6. Mass Spectra of Na Clusters3.4. Geometrical Structures of Nan Clusters3.4.1. Nan Clusters for n 3.4.2. The Structure of the Magic Cluster Na83.4.3. Raman Spectra of the Magic Cluster Na83.4.4. Basics of Photoabsorption3.4.5. Nan Clusters for 33.4.6. Nan Clusters for 93.4.7. Nan Clusters for 13II The p-Block Non-Metal Clusters4. The Element Boron4.0.1. History of Boron4.0.2. Energetic Boron4.0.3. Boron Materials4.0.4. Chemistry of Boron4.1. Icosahedral-Based Crystalline Boron4.1.1. First Crystalline4.1.2. Rhombohedral Boron4.1.3. Orthorhombic & Tetragonal Boron4.2. Non-icosahedral Boron Clusters Bn (2 4.2.1. Small Boron clusters4.2.2. Prediction of Planarity & Aufbau Principle4.2.3. Theoretical Confirmations4.2.4. Experimental Confirmations4.2.5. Hydrocarbon and Boron Clusters4.2.6. Coulomb Explosion4.3. Neutral and Charged Boron Clusters Bn (n 4.3.1. Boron Clusters Bn (15 4.3.2. Boron Clusters Bn (26 4.3.3. Boron Clusters Bn (37 4.4. The Largest Predicted Quasi-Planar Cluster B845. The Element
Описание: This book describes in a comprehensive manner latest studies conducted by various research groups worldwide focusing on carbon and related nanomaterials. Fourteen chapters of this book deal with several key research topics and applications of pure and functionalized carbon nanomaterials and their hybrid nanocomposites.
Описание: ForewordPrefaceI Molecular Modelling & Magic Clusters1. Molecular Modelling1.1. Concepts of Molecular Modelling1.1.1. Areas of Molecular Modelling1.1.2. The Basics of Molecular Modelling1.2. Molecular Mechanics1.2.1. Force Field Equation1.2.2. Minimization Procedure1.2.3. Optimization Methods1.2.4. Gradient Methods1.2.5. General Newton-Raphson Method1.3. Molecular Dynamics1.3.1. Trajectory and Equation of Motion1.3.2. Initialization of Positions and Velocities1.3.3. Verlet Algorithm1.3.4. Leap-Frog Algorithm1.4. Ab Initio Quantum Chemical Methods1.4.1. Some Basics of Quantum Mechanics1.4.2. The Hamiltonian1.4.3. Time-dependent Schrцdinger Equation1.4.4. Hartree-Fock Theory1.4.5. Post Hartree-Fock1.5. Density Functional Theory1.5.1. Kohn-Sham Equations1.5.2. Local (Spin) Density Approximation1.5.3. Non-Local Density-Gradient Corrections1.5.4. Hybrid Functionals1.5.5. Chemistry Software2. Magic Numbers & Clusters2.1. Atomic Clusters and Magic Numbers2.2. What are Orbitals and Shells2.2.1. The Structure of Atom2.2.2. Shell Structure of Nucleons2.2.3. Shell Structure of Condensed Clusters2.2.4. Shell Structure of Hollow Clusters2.3. Magic Numbers in Nature2.3.1. Magic Numbers of Electron Shells2.3.2. Magic Numbers of Nuclear Shells2.3.3. Magic Electronic Shells of Clusters2.3.4. Magic Filled Shells of Clusters2.3.5. Magic Hollow Shells of Clusters2.3.6. Magnetic Shells of Electrons3. Alkali Metal Clusters3.1. Alkali Metals3.2. Lithium Metal Clusters3.2.1. Production of Metal Clusters3.2.2. Lithium Atom3.2.3. Lithium Clusters3.2.4. Experimental Evidence3.2.5. Lin Clusters For n 3.2.6. Lin Clusters For n 3.2.7. Lin Clusters For n 3.2.8. Lin Clusters For n 3.3. Sodium Metal Clusters3.3.1. Sodium Atom3.3.2. Sodium Clusters3.3.3. First Study on Small Na Clusters3.3.4. Electronic Shells of Na Clusters3.3.5. Jellium Model for Na Clusters3.3.6. Mass Spectra of Na Clusters3.4. Geometrical Structures of Nan Clusters3.4.1. Nan Clusters for n 3.4.2. The Structure of the Magic Cluster Na83.4.3. Raman Spectra of the Magic Cluster Na83.4.4. Basics of Photoabsorption3.4.5. Nan Clusters for 33.4.6. Nan Clusters for 93.4.7. Nan Clusters for 13II The p-Block Non-Metal Clusters4. The Element Boron4.0.1. History of Boron4.0.2. Energetic Boron4.0.3. Boron Materials4.0.4. Chemistry of Boron4.1. Icosahedral-Based Crystalline Boron4.1.1. First Crystalline4.1.2. Rhombohedral Boron4.1.3. Orthorhombic & Tetragonal Boron4.2. Non-icosahedral Boron Clusters Bn (2 4.2.1. Small Boron clusters4.2.2. Prediction of Planarity & Aufbau Principle4.2.3. Theoretical Confirmations4.2.4. Experimental Confirmations4.2.5. Hydrocarbon and Boron Clusters4.2.6. Coulomb Explosion4.3. Neutral and Charged Boron Clusters Bn (n 4.3.1. Boron Clusters Bn (15 4.3.2. Boron Clusters Bn (26 4.3.3. Boron Clusters Bn (37 4.4. The Largest Predicted Quasi-Planar Cluster B845. The Element
Автор: Papavassiliou, Dimitrios Название: Thermal Behaviour And Applications Of Carbon-Based Nanomaterials ISBN: 0128176822 ISBN-13(EAN): 9780128176825 Издательство: Elsevier Science Рейтинг: Цена: 26444.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание:
Nanocomposites with Carbon-based nanofillers (e.g., carbon nanotubes, graphene sheets and nanoribbons etc.) form a class of extremely promising materials for thermal applications. In addition to exceptional material properties, the thermal conductivity of the carbon-based nanofillers can be higher than any other known material, suggesting the possibility to engineer nanocomposites that are both lightweight and durable, and have unique thermal properties. This potential is hindered by thermal boundary resistance (TBR) to heat transfer at the interface between nanoinclusions and the matrix, and by the difficulty to control the dispersion pattern and the orientation of the nanoinclusions.
Thermal Behaviour and Applications of Carbon-Based Nanomaterials: Theory, Methods and Applications explores heat transfer in nanocomposites, discusses techniques predicting and modeling the thermal behavior of carbon nanocomposites at different scales, and methods for engineering applications of nanofluidics and heat transfer. The chapters combine theoretical explanation, experimental methods and computational analysis to show how carbon-based nanomaterials are being used to optimise heat transfer.
The applications-focused emphasis of this book makes it a valuable resource for materials scientists and engineers who want to learn more about nanoscale heat transfer.
Offers an informed overview of how carbon nanomaterials are currently used for nanoscale heat transfer
Discusses the major applications of carbon nanomaterials for heat transfer in a variety of industry sectors
Details the major computational methods for the analysis of the thermal properties of carbon nanomaterials
Membranes with Functionalized Nanomaterials: Current and Emerging Research Trends in Membrane Technology provides researchers and practitioners with basic and advanced knowledge of sustainable membrane technology. The book summarizes recent progress made in novel functionalized nanomaterials (FNMs) used in modern membrane technology. It gives a comprehensive overview of state-of-the-art technologies in the field of nanomaterial-based membranes and provides in an in-depth and step-by-step way the foundational scientific knowledge on various sustainable membranes with FNMs technologies and their impact on society and in various industries.
In addition, readers get a handbook in a compact form with various aspects of FNMs-based sustainable membranes.
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