Physical chemistry Books

Book SynopsisHydrogels are an emerging area of interest in medicine as well as pharmaceutics, and their physico-chemical characterization is fundamental to their practical applications. Compared with synthetic polymers, polysaccharides that are widely present in living organisms and come from renewable sources are extremely advantageous for hydrogel formation. Furthermore, polysaccharides are usually non-toxic and biocompatible and show a number of peculiar physico-chemical properties that make them suitable for a wide variety of biomedical applications. This book bridges the gap between the preparation of hydrogels and their characterization techniques. It aims to offer a valid support that can help the readers find appropriate keys to open the doors to the complex world of polysaccharide hydrogels.Trade Review"This book unveils the secrets of polysaccharide hydrogels that make them invaluable tools in the biomedical field. It presents elegant approaches to preparing hydrogels, techniques for a very detailed characterization of polysaccharides and their hydrogels, and recent applications."— Prof. Carmen Alvarez-Lorenzo, University of Santiago de Compostela, Spain"This book is one of the first to cover all the aspects of polysaccharide hydrogels from the basic aspects of chemistry and characterization to their biological relevance and medical applications and is a great and comprehensive answer to the first questions concerning hydrogels."— Prof. Pierre Weiss, University of Nantes, France"‘The gel is easier to recognize than to define (Dorothy Jordan Lloyd, 1926). This book gives significant answers to this ‘old’ but still intriguing statement as it brings together most of the up-to-date information on the hot topic of hydrogels obtained from polysaccharides, and their preparation, characterization and application in the field of pharmaceutics."— Prof. Gaetano Giammona, University of Palermo and The Biophysics Institute, ItalyTable of ContentsIntroduction. Hydrogels. Rheological Characterization of Hydrogels. Hydrogel Mesh Size Evaluation. Dynamic Light Scattering. NMR Methodologies in the Study of Polysaccharides. Small-Angle Neutron Scattering of Polysaccharide Hydrogels. The Method of Small-Angle X-ray Scattering and Its Application to the Structural Analysis of Oligo- and Polysaccharides in Solution. Stimuli Responsive Polysaccharide-Based Hydrogels. Properties and Biomedical Applications of Gellan Gum Hydrogels. Polysaccharide Hydrogels with Magnetic Nanoparticles. Physical and Chemical Hyaluronic Acid hydrogels and Their Biomedical Applications. Alginate Hydrogels: Properties and Applications. Polysaccharide Hydrogels: The Present and the Future.

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Book SynopsisAs computational hardware continues to develop at a rapid pace, quantitative computations are playing an increasingly essential role in the study of biomolecular systems. One of the most important challenges that the field faces is to develop the next generation of computational models that strike the proper balance of computational efficiency and accuracy, so that the problems of increasing complexity can be tackled in a systematic and physically robust manner. In particular, properly treating intermolecular interactions is fundamentally important for the reliability of all computational models. In this book, contributions by leading experts in the area of biomolecular simulations discuss cutting-edge ideas regarding effective strategies to describe many-body effects and electrostatics at quantum, classical, and coarse-grained levels. The goal of the book is to not only provide an up-to-date snapshot of the current simulation field but also stimulate exchange of ideas across different sub-fields of modern computational (bio)chemistry. The text will be a useful reference for the biomolecular simulation community and help attract talented young students into this exciting frontier of research.Trade Review"This book is a state-of-the-art report on the description of molecular energetics using force fields, which are the most critical element in computer simulations of biomolecular systems. The 16 chapters, written by leaders in the field, provide in-depth reports on all important current issues, including the representation of polarization, quantum mechanics-based force fields, and coarse-grained approaches for RNA, DNA, and membranes. This is an important reference for anyone involved in computational studies in chemistry and biology, especially those who want a deeper understanding of the underlying representations of intra- and intermolecular energetics."—Prof. William L. Jorgensen, Yale University, USATable of ContentsQM and QM/MM Methods. Polarizable continuum models for (bio)molecular electrostatics: Basic theory and recent developments for macromolecules and simulations. A modified divide-and-conquer linear-scaling quantum force field with multipolar charge densities. Explicit polarization theory. Effective fragment potential method. Quantum mechanical methods for quantifying and analyzing non-covalent interactions and for force-field development. Force field development with density-based energy decomposition analysis. Atomistic Models. Differential geometry-based solvation and electrolyte transport models for biomolecular modeling: a review. Explicit inclusion of induced polarization in atomistic force fields based on the classical Drude oscillator model. Multipolar force fields for atomistic simulations. Quantum mechanics based polarizable force field for proteins. Status of the Gaussian electrostatic model, a density-based polarizable force field. Water models: Looking forward by looking backward. Coarse-Grained Models. A physics-based coarse-grained model with electric multipoles. Coarse-grained membrane force field based on Gay–Berne potential and electric multipoles. Perspectives on the coarse-grained models of DNA. RNA coarse-grained model theory.

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Book SynopsisThe use of microwaves has gradually democratized itself in several scientific areas and is now a common methodology in domains as different as chemistry, protein digestion, mining, and metallurgy. Materials chemistry is one field where microwave irradiation technologies are being studied. In recent years, development of nanotechnologies has increased the interest of materials scientists in these new technologies. Microwave methodologies are now routinely used in several areas of materials science, and new advances are ongoing. This book presents recent improvements in microwave engineering of materials and nanomaterials, interactions of microwave chemistry with materials, and advances in microwave technologies in several domains such as polymer synthesis and modification, processing of various materials (ceramics, glasses, metallic alloys, zeolites), and synthesis and functionalization of diverse nanomaterials (carbon nanotubes, MOF semiconductors, inorganic nanoparticles). The book will be of interest to all students and researchers in materials science and nanosciences who want to discover or increase their knowledge of microwave technology.Table of ContentsIntroduction to Microwave Chemistry. General Features of Microwave Interaction with Materials. Microwave-Assisted Synthesis and Modification of Polymers. Microwave Processing of Ceramics and Glasses. Microwave Processing of Composites, Glass-Ceramic Coatings and Metallic Alloys: An Overview. Microwaves Engineering for Synthesizing Clays and to Modify Properties in Zeolites. Microwave Engineering of Carbon Nanotubes, M. Sinha. Microwave Synthesis of Porous Zeolitic Metal Organic Frameworks (MOFs) Materials. Microwave-Assisted Synthesis of Metallic Nanoparticles. Microwave-Assisted Synthesis of Semiconductor Nanomaterials for Energy Conversion. Microwave Nano-Surface Engineering.

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Book SynopsisThis book illustrates interfacial properties, preparation, characterization, devices, and applications from the standpoint of nano-interfacial tailoring. Since the primary focus of the book is on the use of nanocomposite dielectrics in electrical applications, chapters are devoted to directly relevant topics, such as surface and bulk breakdown processes. However, the mechanisms that underpin such behavior are not unique. Therefore, the book also addresses related topics that range from the chemistry of polymer and nanocomposite degradation to the simulation of charge transport dynamics in disordered materials, thereby presenting a multi- and interdisciplinary approach to the area. It will serve as a practical handbook or graduate textbook and is supplemented by ample number of illustrations, case studies, practical examples, and historical perspectives.Trade Review"This book gives an excellent review of polymeric nanocomposites for dielectric applications, a truly interdisciplinary field between chemistry, physics, and electrical engineering. It covers fundamental concepts and historical reviews of the scientific progress as well as new enablers for a rapid advance in this area. These include methods to chemically design interfaces on a molecular level, three-dimensional imaging technologies on a nanometer level, and the rapid progress in material simulations. From an engineering point of view, the book discusses current and new application areas for nanocomposite dielectrics in the electric power and electronics industry. An outstanding reference for both scientists and engineers."—Dr. Henrik Hillborg, ABB, Sweden"This book brings together contributions from researchers active in the area of nanocomposites for electrical applications. Nano-tailoring is the theme of this book. The book is loaded with the most recent information on nanodielectric research, information that can be applied by those who develop their own nanocomposites. Researchers working in this area of research will greatly benefit from reading this book. So also will those in electrical power engineering technology, who will be able to use it to understand the implications of nanocomposite materials for the future of power distribution, and other applications where dielectric and insulating materials exposed to an electric field can offer significantly improved electrical properties as a result of inclusion of nanoparticles."IEEE Electrical Insulation Magazine"This book gives an excellent review of polymeric nanocomposites for dielectric applications, a truly interdisciplinary field between chemistry, physics, and electrical engineering. It covers fundamental concepts and historical reviews of the scientific progress as well as new enablers for a rapid advance in this area. These include methods to chemically design interfaces on a molecular level, three-dimensional imaging technologies on a nanometer level, and the rapid progress in material simulations. From an engineering point of view, the book discusses current and new application areas for nanocomposite dielectrics in the electric power and electronics industry. An outstanding reference for both scientists and engineers."—Dr. Henrik Hillborg, ABB, Sweden"This book brings together contributions from researchers active in the area of nanocomposites for electrical applications. Nano-tailoring is the theme of this book. The book is loaded with the most recent information on nanodielectric research, information that can be applied by those who develop their own nanocomposites. Researchers working in this area of research will greatly benefit from reading this book. So also will those in electrical power engineering technology, who will be able to use it to understand the implications of nanocomposite materials for the future of power distribution, and other applications where dielectric and insulating materials exposed to an electric field can offer significantly improved electrical properties as a result of inclusion of nanoparticles."IEEE Electrical Insulation MagazineTable of ContentsIntroduction. Preparation of nanoparticles. Nano-filler dispersion for tailoring of nanocomposite dielectrics. Nanoparticle surface modification for dielectric polymer nanocomposites. Characterization of nanocomposites. Theoretical aspects of interfaces. Computer simulation of nanocomposites at the molecular level. Electrical properties of polymer nanocomposites. Dielectric breakdown of polymer nanocomposites. Suppression of surface erosion by surface-treated fillers. Degradation of polymeric micro- and nanocomposites. Permittivity gradient composite material structures. Permeability control by nano-magnetic fillers: case study. High-density mounted components for electronic devices. Power applications.

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Book SynopsisDendrimers are hyperbranched molecules with well-defined nanometer-scale dimensions. Important technological applications of these systems, both in biomedicine and materials science, have been recently proposed. Liquid crystal dendrimers are fascinating materials that combine the characteristics of dendrimers with the anisotropic physical behaviour and molecular self-organization typical of liquid crystals. This unique association of physical and chemical properties, together with the possibility of multi-selective functionalization put forward by dendrimers, opens new perspectives for applications. Nuclear magnetic resonance (NMR) is a powerful experimental technique applied in materials science and an important tool to the study of molecular organization and dynamics. This book presents an introduction to dendrimers properties with special insight into liquid crystal dendrimers and a detailed description of the NMR theory and experimental techniques used in the investigation of these materials. It also discusses recent NMR research results on liquid crystal dendrimers, with emphasis on molecular order and dynamics studies.This book introduces the properties of dendrimers, with special insight into liquid crystal dendrimers, and a detailed description of NMR theory and experimental techniques used in the investigation of these materials. It also discusses results of recent NMR research on liquid crystal dendrimers, with an emphasis on molecular order and dynamics studies. Advanced undergraduate and graduate students of physics, chemistry, and materials science and researchers in the fields of dendrimers, liquid crystals, and NMR will find the book extremely useful.Table of ContentsIntroduction. Liquid Crystals. Molecular Structures of Liquid Crystalline Dendrimers. Fundamentals of Nuclear Magnetic Resonance. NMR spectroscopy of anisotropic fluid systems. NMR relaxation and molecular dynamics. NMR relaxometry and molecular dynamics. NMR spectroscopy of liquid crystal dendrimers. NMR relaxometry of liquid crystal dendrimers.

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Book SynopsisThis collection of research articles and reviews covers the latest work in the design, delivery, dynamic abilities, and immune stimulation of RNA nanoparticles which have driven the utilization of their immunomodulatory properties. The unknown immune properties of nucleic acid nanoparticles have been a major hurdle in their adaptation until the works herein began assessing their structure-activity relationships. This collection chronologically follows the path of investigating the recognition of design components to implementing them into nucleic acid nanostructures. RNA nanotechnology is an emerging platform for therapeutics with increasing clinical relevance as this approach becomes more widely used and approved for the treatment of various diseases. The latest research aims to take advantage of RNA’s modular nature for the design of nanostructures which can interact with their environments to communicate programmed messages with intracellular pathways. In doing so, nanoparticles can be used to elicit or elude responses by the immune system as desired in conjunction with their therapeutic applications. Table of ContentsTherapeutic RNA Nanotechnology

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Book SynopsisSpectroscopy can be defined as the study of the interaction of electromagnetic radiation with matter, during which absorption, emission, or scattering of radiation may take place. The structure and chemical properties of a system can easily be understood and studied with the help of atomic and molecular spectroscopic techniques because there exists a fundamental relationship between the properties of a substance and the interaction of radiation with that substance. The importance of spectroscopy in the physical and chemical processes going on in planets, stars, and comets as well as in the interstellar medium has been continuously growing as a result of the use of satellites and the development of radiotelescopes for the microwave and millimeter wave regions. This book on spectroscopy gives a wealth of information that may be derived from spectra. Table of Contents1. Introduction to Spectroscopy 2. Nuclear Magnetic Resonance Spectroscopy 3. Carbon-13 NMR 4. Electron Spin Resonance Spectroscopy 5. Infrared Spectroscopy 6. Microwave Spectroscopy 7. Raman Spectroscopy 8. Electronic Spectroscopy 9. Fluorescence And Phosphorescence Spectroscopy 10. X-ray Fluorescence and Its Applications for Materials Characterization

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Book SynopsisThis book highlights a comprehensive review of synthesis, properties, and strategies to improve the applicability of 2D materials like graphene, borophenes, metal nanosheets, phosphorene, and transition metal dichalcogenides (TMDs). It also highlights the synthesis of 2D-based hybrid composite materials and their effects on applicability, especially in energy, environment, and biomedical applications, by incorporating surface functional groups, metal/non-metal ions, and polymers. The advancement in innovative technology and use of 2D-based hybrid composite materials can improve the development of newer products/opening newer possibilities to fight existing issues related to environment, energy, and biomedical sciences. However, researchers continue to face numerous challenges in developing newer products/possibilities, large-scale production, with health and environmental impact being a challenge.This book serves as a valuable resource for researchers, professionals and students working in the field of advanced materials, especially 2D-based hybrid composites.Table of ContentsBoron Nitride and Its Hybrids: Synthesis, Properties and Potential Applications.- Two-dimensional (2D) materials incorporated PMMA Polymeric Nanocomposites: Synthesis and applications.- Two-Dimensional Transition Metal Oxides (TMOs) for solar cell applications.- MXene-based Two-dimensional (2D) Hybrid materials and their Applications towards environment.- 2D Metal Carbides & Nitrides (MXenes) in Water Treatment.- Two dimensional (2D)-hybrid nanocomposites for environmental sensing applications.- Graphene-based nanocomposites in electrochemical sensing.- Two-Dimensional (2D) Materials for Bio-sensing applications.- Two-dimensional material based novel drug delivery system.- Two-dimensional graphene quantum dots in drug delivery applications.- Two-dimensional (2D)-based Hybrid Composites for Cancer Diagnosis and Therapy.- Two dimensional (2D) based hybrid polymeric nanoparticles as novel potential therapeutics in treatment of hepatocellular carcinoma.- Potential of 2D-Materials: Novel Insights and Applications in Colorectal Cancer Research.- An Overview of Two-Dimensional Materials and Their Applications in Dentistry.- Two-Dimensional-Based Hybrid Materials for Agriculture System.

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