Hydrotalcite-based materials, characterized by their unique composition are integral to diverse applications in heterogeneous catalysis and beyond. Renowned for their catalytic prowess, these compounds serve as versatile bases for organic reactions, support structures for metal catalysts, and facilitators in organic transformations and water treatment. This comprehensive book introduces readers to hydrotalcite-like compounds, with ten chapters exploring variations in metal ion ratios and interlayer anions, and their impact on properties crucial for industrial applications (ranging from industrial catalysis to medicine). Key Features • Detailed exploration of hydrotalcite and hydrotalcite-like compounds • Recent trends and applications in industrial catalysis, organic synthesis, and environmental remediation • Hydrotalcite synthesis including methods like coprecipitation, sol-gel processing, and advanced techniques • Contributions from leading researchers in the field with references • Comprehensive overview for each topic suitable for both academics and industry professionals With its exhaustive coverage of hydrotalcite-based materials and their multifaceted applications, this book promises to be an indispensable resource for anyone who wants to understand the utilization of hydrotalcites for advanced catalytic processes.

The 2-Dimensional World of Graphene explores a wide range of graphene applications, capturing current research and understanding about the material while also offering a glimpse into the exciting possibilities that lie ahead. It compiles 10 edited reviews contributed by experts in chemistry. The book begins with a comparison of short-chain dyad graphene oxide and graphene quantum dot nanocomposites, highlighting their role in renewable energy. The introductory chapter is followed by reviews on graphene applications forensics, water purification, green synthesis from agricultural waste, energy storage and conversion, reliability engineering and advanced material fabrication. Each chapter includes structured sections, detailed references and a summary for a broad readership. Contributors have included information on structures and relevant methodology where appropriate for the range of applications highlighted. The 2-Dimensional World of Graphene is an essential primer on applications of graphene and its derivatives.

Recent Advancements in Multidimensional Applications of Nanotechnology provides a comprehensive overview of the latest advancements and applications of nanotechnology across various dimensions. Covering a wide range of topics, from electron microscopy to nanotherapeutic strategies, the book explores the diverse applications of nanotechnology in industries and research fields. Key Features: Comprehensive Coverage: Gain insights into electron microscopy, biogenic synthesis methods, energy applications, and more. Industry Applications: Discover how nanotechnology is revolutionizing industries such as energy, oil and gas, agriculture, and healthcare. Cutting-Edge Developments: Stay ahead of the curve with discussions on copper oxide nanoparticles, nano-coatings, and thin film optimization for solar cells. Biomedical Breakthroughs: Explore the exciting realm of biomedical applications, from metallic nanoparticles in healthcare to biogenic synthesis methods. Practical Insights: Benefit from practical insights and case studies that showcase real-world applications of nanotechnology.

This series provides information on the nature of dyes, their harmful effects, and dye degrading techniques. The second volume focuses on sophisticated oxidation methods for dye degradation. The information on target-oriented dye mitigation is intended to give readers a better understanding of the dye degradation process to sustain a healthy environment. Chapters present referenced information and highlight novel industry breakthroughs. Key topics: The Fenton process for dye removal MOF-based and graphene oxide photocatalysts for dye degradation Novel photocatalysts active in visible light and IR spectra Photocatalytic degradation of transition metal dichalcogenides Environment friendly synthesis of photocatalysts for dye degradation Metal oxide Nanomaterials for dye degradation This volume is a comprehensive singular resource on photocatalytic dye degradation for researchers, apprentices and learners in chemistry and chemical engineering courses. It also serves as a reference for industry professionals who work with chemical dyes (for example in textile and plastic industries) and are engaged in the critical field of environmental remediation.

Thin Film Nanomaterials: Synthesis, Properties and Innovative Energy Applications provides a comprehensive overview of the synthesis, properties, and cutting-edge applications of thin film nanomaterials. Each chapter explores different aspects of thin film synthesis and its application in energy devices, showcasing different metal-based and carbon nanomaterials . The book begins with a discussion on the synthesis and characterization of cadmium and zinc sulphide thin films for opto-electronics energy devices. Subsequent chapters delve into critical reviews of CIGS thin film nanomaterials, deposition techniques for metal oxide nanocomposite films, and nanostructured TiO2@carbon films for photocatalytic applications. Bandgap engineering, optical properties of composite films, and recent advancements in metal oxide thin films are also covered. Additionally, the synthesis and characteristics of iron oxide films for solar cell and green energy storage applications are discussed. Chapters on challenges and future prospects of CNT-based cathode emitters and advanced characterizations of nanocrystalline ferrimagnetic thin films provide valuable insights into emerging technologies. This book is an essential resource for professors, scientists, engineers, research scholars, postdocs, and undergraduate/graduate students seeking to explore the forefront of nanomaterials and their applications in energy systems.

The discovery of new materials and the manipulation of their exotic properties for device fabrication is crucial for advancing technology. Nanoscience, and the creation of nanomaterials have taken materials science and electronics to new heights for the benefit of mankind. Advanced Materials and Nanosystems: Theory and Experiment covers several topics of nanoscience research. The compiled chapters aim to update readers by highlighting modern developments in materials science theory and experiments. The significant role of new materials in future technology is also demonstrated. The book serves as a reference for curriculum development in technical institutions and research programs in the field of physics, chemistry and applied areas of science like materials science, chemical engineering and electronics. This part covers 11 topics in these areas: 1- Role of Plasmonic Metal-semiconductor Heterostructure in Photo Catalytic Hydrolysis and Degradation of Toxic Dyes 2 -BaZrO3-Based Ceramics and Ceramic Composites as Smart Materials for Advanced Applications 3 -A High-capacity Anode Material for Lithium-ion Batteries is Sili-graphene Type SiC3 4 -An Introduction to the Fabrication of White Light-emitting Diodes 5 -Electronic and Piezoelectric Properties of Nonmetal Doped II-VI Monolayer Compounds 6- A Theoretical Investigation on the New Quaternary MAX-phase Compounds 7- Surface Segregation in Pt 3 Nb and Pt 3 Ti using Density Functional-based Methods. 8- Nanoparticles and Environmental Health 9 -Investigation for Optimum site for adsorption and population effect of Lithium on Silicene Monolayer 10- Strategies for Synthesizing Metal Oxide Nanoparticles and the Challenges 11- Heterogeneous Semiconductor Photocatalysis for Water Purification: Basic Mechanism and Advanced Strategies

The Chemistry inside Spices & Herbs: Research and Development brings comprehensive information about the chemistry of spices and herbs with a focus on recent research in this field. Experts in phytochemistry have contributed reviews with the aim to give the reader deep knowledge about phytochemical constituents in herbal plants and their benefits. The contents include reviews on the biochemistry and biotechnology of spices and herbs, herbal medicines, biologically active compounds and their role in therapeutics among other topics. Chapters which highlight natural drugs and their role in different diseases and special plants of clinical significance are also included. Volume 3 covers several topics: the treatment of Polycystic Ovary Syndrome (PCOS), managing rheumatoid arthritis and related inflammatory conditions, orchid-derived natural flavoring and therapeutic agent Vanillin, Silymarin's utility in treating hepatic diseases, phytochemistry and pharmacological activities of Hygrophila spinosa, pharmacological and chemical aspects of Tulsi, Combretum caffrum as a potential anticancer molecule, and the roles of herbs in treating diabetes. This book is an ideal resource for scholars (in life sciences, phytomedicine and natural product chemistry) and general readers who want to understand the importance of herbs, spices and traditional medicine in pharmaceutical R&D and clinical research.

The Chemistry inside Spices & Herbs: Research and Development brings comprehensive information about the chemistry of spices and herbs with a focus on recent research in this field. Experts in phytochemistry have contributed chapters with the aim to give the reader deep knowledge about phytochemical constituents in herbal plants and their benefits. These in-depth reviews cover the biochemistry and biotechnology of spices and herbs, herbal medicines, biologically active compounds and their role in therapeutics among other topics. Chapters which highlight natural drugs and their role in different diseases and special plants of clinical significance are also included. Volume 4 covers these topics: the potential use of Indian spices in managing viral infections, the chemical, functional, and nutritional properties of Coriander, traditional uses, chemical components, and pharmacological properties of Sphaeranthus indicus, Copaiba oleoresins phytochemisty and the pharmacological properties of oils from Copaifera species. Additionally, the pharmacognostic profile of Nardostachys jatamansi is discussed, along with insights into the medicinal herb Bush Onion (Afrostyrax lepidophyllus) and its nutritional and medicinal values. Various aspects of plant essential oils, including their chemistry, extraction methods, and medicinal properties, and plant proteases are also covered in detail. This book is an ideal resource for scholars (in life sciences, phytomedicine and natural product chemistry) and general readers who want to understand the importance of herbs, spices and traditional medicine in pharmaceutical R & D and clinical research.

Nanoelectronic Devices and Applications presents reviews on recent advances in nanoelectronic device design and new directions for their practical use. The volume includes 16 edited chapters that cover novel material systems, band engineering, modelling and simulations, fabrication and characterization techniques, and their emerging applications. The discussions presented in this book are based on current understandings on innovations and future trends, and references are provided for advanced scholars. Chapter 1 presents an overview of recent innovations and future prospects in III-nitride semiconductor technologies for RF, power, digital and quantum applications. Chapter 2 reports new trends in GaN-based optical devices for sensing and micro-display applications. Chapter 3 shows current interests in nanophosphors and their utilizations in improving device performance of InGaN nanowire light-emitting diodes (LEDs). Recent studies on the effect of potential profile on the carrier transport in AlGaAs based double quantum well structures and their applications are presented in Chapter 4. The recent progress in high-electron-mobility transistors (HEMTs) is presented through Chapters 5, 6, and 7. A comprehensive review on β-Ga2O3 emphasizing material properties, growth approaches, and its applications for next-generation high-power nanoelectronics; the effect of dielectric layers on the characteristics of AlN/β-Ga2O3 HEMTs are presented in Chapter 8 and 9 respectively. Chapters 10-14 summarize the recent studies in field-effect transistors (FETs) adopting different materials and structures. Chapter 15 presents current research in 2D Tungsten Diselenide (WSe2) with special focus on the material properties, device structures, applications, and challenges. Finally, Chapter 16 presents a systematic review of memristors, and memristive semiconductor devices. The book is intended as a primary resource for elective subjects in advanced electronics and computer engineering courses at university level. Researchers and industry professionals will also learn about emerging trends and state-of-the-art research in nanoelectronics.

This book explores a revolutionary sensing technique called Indicator Displacement Assays (IDAs). It is designed to provide readers with a comprehensive understanding of the conceptual foundation and wide-ranging applications of IDAs. The book aims to fulfill a crucial gap in the existing references on the subject. The content starts by explaining fundamental concepts, design strategies, and the scope of IDAs. Subsequent chapters elaborate on the intricate molecular recognition of various analytes, offering insights into sensing mechanisms for cationic, anionic, and neutral molecules. The design and construction of colorimetric, fluorescence, and metal complexing IDAs are also thoroughly explored in later chapters, followed by recent extensions of IDAs, including enantioselective indicator displacement assays, intramolecular indicator displacement assays, reaction-based indicator displacement assays, and more. Innovative applications of IDAs, such as sensory arrays and electrochemical sensors, are also discussed in detail, providing a comprehensive understanding of their conceptual foundations and practical implementations. The book is a primer on IDAs for researchers who want to understand the fundamentals of the technique, as well as postgraduate students aiming to specialize in supramolecular and analytical chemistry.