This book informs readers about recent advances in graphene carbocatalysis encapsulating the current developments in the syntheses, properties, characterizations, functionalization and catalytic applications of graphene, its derivatives and composites. It serves as a comprehensive primary reference book for chemistry and engineering students who are required to learn about graphene chemistry in detail. It also serves as an introductory reference for industry professionals and researchers who are interested in graphene research as well as its emerging applications in catalysis and beyond. Volume 1 provides an introduction to catalysis and the chemistry of graphene. This is followed by chapters that cover the chemistry of graphene compounds. Next, it covers the functionalization of graphene into catalytic materials and its role in the synthesis of nanocomposites. Finally, the book delves into the complex aspects of graphene carbocatalysis: recent advances in graphene supported palladium catalysts for coupling reactions, applications of graphene-based catalysts in multicomponent, domino reactions, oxidation and reduction reactions, and recent trends in biocatalytic properties of graphene-based composites are all discussed in detail.

Synthesis of Nanomaterials is a beginner's guide to the synthesis and characterization of biomaterials for medical devices and implants. It presents 8 chapters explaining the use of biomaterials in medicine and pharmacology. The concepts are explained with the guidance of specialists who present the principal techniques and methods to obtain high-performance polymers and composite materials. Starting with an introduction to the subject, the book explains nanomaterials synthesis and progresses towards engineering applications. The chapters also cover modern biomaterials such as stimuli-responsive biomaterials, hydrogels, and self-healing materials. One chapter is dedicated to computational and theoretical techniques in biomedicine and a final chapter covering microencapsulation for advanced drug delivery rounds up the contents. Synthesis of Nanomaterials is a primary reference book for undergraduate and graduate students as well as professors involved in multidisciplinary research and teaching programs.

This volume is a complete review of the cutting-edge scientific evidence about the isolation, identification, bioactivity and molecular analysis of the biologically active peptides (BAPs) obtained from several underutilized grains. It provides a general review of current and new technologies in isolating and bioprospecting BAPs before going into the details of 11 grains. Amaranth, quinoa, millet, buckwheat, sorghum, lupin, mung bean, chickpea, broad bean, cocoa bean and chia are extensively discussed in dedicated chapters. Additionally, these chapters provide information about the characteristics of the crop, its main varieties, traditional uses, economic importance, nutritional aspects, structure and chemical composition of the grains, as well as the classification and distribution of the grain protein fractions. Moreover, the advances in the analytical techniques used for the concentration, purification and molecular characterization of BAPs are described. The impact of BAPs in the promotion of health is highlighted, as well as their potential incorporation as promising ingredients in the development of functional foods, nutraceuticals and cosmeceuticals. Finally, the main findings related to the potential antiviral and anti-COVID-19 activities of BAPs derived from underutilized grains are described. This reference will be of interest for academics, professionals and researchers focused in food science, biotechnology, pharmacology and agriculture, and to professionals involved in the research and development of natural products, pharmaceuticals and cosmeceuticals.

Cerium is the most abundant metal of rare-earth elements. It can be used to make materials such as phosphors and alloys, that have applications in various applied fields (like electronics, magnetics and heterogeneous catalysis) and devices (like catalytic converters and gas mantles). Cerium-Based Materials: Synthesis, Properties and Applications presents detailed knowledge about cerium materials. Starting with the history of cerium-based materials, it gives an introduction to the synthesis of chemicals like cerium oxides and composites. This is followed by information about characterization of cerium nanoparticles and industrial applications of cerium-based materials, with a focus on catalysis, biomedical engineering and pharmaceutical chemistry. This book is an essential reference for researchers and chemical engineers who want a summary of cerium materials and its applications.

A biosensor is an integrated receptor-transducer device that converts a biological response into an electrical signal. The design and development of biosensors have taken center stage for researchers or scientists in the recent decade owing to the wide range of biosensor applications in healthcare and disease diagnosis, environmental monitoring, water and food quality, and drug delivery. Due to their adaptability, ease of use in relatively complex samples, and portability, the significance of electrochemical biosensors in analytical chemistry has increased manifold. Electrochemistry has been pivotal in developing transduction methods for biological processes and biosensors. In parallel, the explosion of activity in nanoscience and nanotechnology and their huge success have profoundly affected biosensor technology, opening new avenues of research for electrode materials and transduction. Electrochemical Biosensors in Practice: Material and Methods particularly explores the use of silver and gold nanoparticles for signal amplification, photocurrent transduction, and aptamer design. Therefore, the book serves as an introductory text for those specializing in biosensors and bioelectronics and their practical applications. Key features - Includes structured information for easy understanding of the subject - Provides an introduction to biosensors and electrochemical biosensor classification - Explains fundamental concepts and practical electrochemistry techniques for research - Provides notes on essential electrochemical sensor materials such as graphene, carbon nanotubes, conductive polymers, and other advanced materials - Provides information about electrochemical biosensor development - Informs readers about recent applications and research findings - Includes references for further reading

Rare-earth hexaborides are a group of materials composed of octahedral boron units. They are useful for making advanced ceramics that have a wide range of industrial applications due to their low electronic work functions, hardness, refractory properties, low electrical resistances and specific thermal expansion coefficients. Rare-Earth Metal Hexaborides: Synthesis, Properties, and Applications provides a quick reference on rare-earth metal hexaborides and their engineering applications. It provides a primer on rare earth elements followed by details of rare-earth hexaboride structures, synthetic methods, and information about their alloys and ceramic composites. References to scholarly research are also provided for assisting advanced readers. This reference is a handy source of information for chemical engineering and materials science scholars, and anyone interested in the applied chemistry of rare-earth metals and borides.

Nanobiotechnology is the application of nanotechnology in biological fields. Nanobiotechnology is a multidisciplinary field that currently engages researchers in conventional as well as advanced avenues of engineering and natural sciences.The recent developments in nanobiotechnology have impacted various socio-economic sectors, including medical, agriculture, food, textile, and other industries. Although the integration of nanomaterials with biology has led to the development of diagnostic devices, contrast agents, analytical tools, therapy, and drug-delivery vehicles, bionanotechnology research is still in its infancy. The full potential of developments in this field have yet to be realized. This book discusses various nano-engineered materials or nanocarriers that are used in different situations. It presents 8 chapters that cover the application of nanobiomaterials in environmental remediation, nanofertilisers, nanobiotics against antimicrobial resistance, nanobiosensors in pathogen detection, and nanotoxicity assessments. Each chapter is structured into easy-to-read sections that explain fundamental and applied concepts of nanobiomaterials. Readers will gain a current view of the biotechnological application of modern nanomaterials and nanoparticles. The book is intended to be a primer for students and researchers in agriculture, biotechnology, and biomedical engineering courses.

Medicinal chemists around the world have been inspired by nature and have successfully extracted chemicals from plants. Research on enzymatic modifications of naturally occurring compounds has played a critical role in the search for biologically active molecules to treat diseases. This book set explores compounds of interest to researchers and clinicians. It presents a comprehensive analysis about the medicinal chemistry (drug design, structure-activity relationships, permeability data, cytotoxicity, appropriate statistical procedures, molecular modelling studies) of different compounds. Each chapter brings contributions from known scientists explaining experimental results which can be translated into clinical practice. Volume 2 gives (1) a detailed overview of the sesquiterpenes polypharmacology, (2) an interesting journey around the world of cannabinoids that reveals the development of new synthetic Δ9-THC derivatives, (3) the design of specific formulations to overcome the volatility of small sized terpenes-based essential oils, (4) an update on the latest generations of endoperoxides endowed with antimalarial activity and finally (5) a summary of MedChem strategies to fix the most common issues in formulating terpene derivatives (like low potency and poor solubility). The objective of this book set is to fulfill gaps in currently acquired knowledge with information from the recent years. It serves as a guide for academic and professional researchers and clinicians.

Bio-Inspired Nanotechnology focuses on the use of bio-inspired and biomimetic methods for the fabrication and activation of nanomaterials. It summarizes recent developments in biocompatible and biodegradable materials, including their properties, fabrication methods, synthesis protocols, and applications. This includes studies concerning the binding of the biomolecules to the surface of inorganic structures, structure/function relationships of the final materials, and unique applications of such biomimetic materials in harvesting/storage, biomedical diagnostics, and materials assembly. The book chapters also cover a range of available bio-based nanomaterials, including chitin, starch and nanocellulose. It serves as a detailed reference for learners and anyone interested in sustainable nanoscale materials, including materials scientists, biomedical engineers, environmental scientists, food and agriculture manufacturers and scientists.

Advanced Catalysts Based on Metal-organic Frameworks is a comprehensive introduction to advanced catalysts based on MOFs. It covers basic information about MOF catalysts with industrial and environmental applications. The detailed chapters update readers on current applications and strategies to apply MOF-based catalysts in industrial processes geared for sustainability initiatives such as renewable energy, pollution control and combating carbon emissions. Key Features - 13 structured, easy to read chapters that comprehensively cover MOF catalysts - An introduction to basic information about MOF catalysts - In-depth coverage of advanced applications of MOF catalysts - Explanation of MOF modifications and applications of derivative compounds - In-depth coverage of MOF catalysts used for electrocatalysis and photocatalysis - Detailed explanation of environmental-friendly and sustainable technologies (biomass upgrading, water purification, CO2 capture) - Updated references for advanced readers The is an essential reference for chemical engineers, scientists in the manufacturing and sustainability industry and post-graduate scholars working on MOFs and chemical catalysis.