Search results for ""Royal Society of Chemistry""

Covering both organic materials, where recent advances in the understanding of device physics is driving progress, and the newly emerging field of mixed halide perovskites, which are challenging the efficiencies of conventional thin film PV cells, this book provides a balanced overview of the experimental and theoretical aspects of these two classes of solar cell. The book explores both the experimental and theoretical aspects of these solar cell classes. Emphasis is placed on understanding the fundamental physics of the devices. The book also discusses modelling over many length scales, from nano to macro. The first book to cover perovskites, this is an important reference for industrialists and researchers working in energy technologies and materials.

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Medicines play an important role in the treatment and prevention of disease in humans and animals, but residues from these medicines can be released into the environment through a number of routes during their manufacture, use and disposal. It is only recently that the potential environmental impacts of this exposure to pharmaceuticals are being considered. The book explores where pharmaceutical residues can be found, e.g. in surface waters, drinking water, sediments and the marine environment; the sources of these residues, from manufacture through to disposal of unused medicines; how these residues break down; and how this all impacts on wildlife and human health. In reviewing the current position and examining further possible impacts, this book is an important reference for researchers working in the pharmaceutical industry, as well as for environmentalists, policy makers and students on pharmacy and environmental science courses wanting to better understand the impacts of pharmaceuticals on the environment.

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New designer drugs, access to databases, and changing availability of samples for analysis have changed the face of modern forensic toxicology in recent years. Forensic Toxicology: Drug Use and Misuse brings together the latest information direct from experts in each sub-field of the discipline providing a broad overview of current thinking and the most innovative approaches to case studies. The text begins with an in-depth discussion of pharmaco­epidemiology, including information on the value of nationwide databases in forensic toxicology. The use and abuse of drugs in driving, sport and the workplace are then discussed by industry experts who are conducting case work in their field. Not only are new drug groups discussed (NPS), but also their constantly changing impact on drug legislation. Synthetic cannabinoids, khat and mephodrone are discussed in detail. Following a section devoted to legislation and defence, readers will find comprehensive chapters covering sample choice reflecting the increasing use of hair and oral fluid, and also the less commonly used sweat and nail analysis. New and old case examples are compared and contrasted in the final part of the book, which will enable readers to understand how drugs impact on each other and how the interpretative outcome of a case are dependent on many aspects. From use of pharmaceutical drugs in a clinical setting, through smart drugs to new psychoactive drugs, this book documents the wide range in which drugs today are abused. This book will be an essential resource for postgraduate students in forensic toxicology, and for researchers in forensic toxicology laboratories who need the latest data and knowledge.

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With tremendous growth over the last five years, mechanochemistry has become one of the most important topics in current polymer science research. With a particular focus on polymers and soft materials, Mechanochemistry in Materials looks at the subject from the application of macroscopic forces to solid systems of macroscopic dimensions. The book has been divided according to length scale covering both experimental and theoretical considerations simultaneously. The first section of the book focuses on inspiration from nature, exploring and explaining multiple biological phenomena. The second section discusses molecular mechanochemistry, including the theoretical understanding of the transduction of mechanical force and its impact on covalent bonds cleavage and formation. The final section considers the implementation of these phenomena at the mesoscale and discusses the use of supramolecular/reversible aspects with similarities to biological systems. The book provides a unique comparison with natural systems and contains all the important achievements in the area from the last decade. Appealing to a broad range of materials scientists, working in industry and academia, this well-presented and comprehensive title will be essential reading for researchers.

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In the past decade a new era in asymmetric catalysis has been realised by the discovery of L-proline induced chiral enamines from carbonyls. Inspired by this, researchers have developed many other primary catalytic species in situ, more recently secondary catalytic species such as aminals have been identified for use in asymmetric synthesis. High-yielding asymmetric synthesis of bioactive and natural products through mild catalysis is an efficient approach in reaction engineering. In the early days, synthetic chemists mainly focused on the synthesis of complex molecules, with less attention on the reaction efficiency and eco-friendly conditions. Recent investigations have been directed towards the development of atom economy, eco-friendly and enantioselective synthesis for more targeted and efficient synthesis. Building on the momentum of this rapidly expanding research area, Dienamine Catalysis for Organic Synthesis will provide a comprehensive introduction, from the preformed species, in situ generation and onto their applications in the synthesis of bioactive molecules and natural products.

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Following in the wake of Chang's two other best-selling physical chemistry textbooks, this new title introduces laser spectroscopist Jay Thoman (Williams College) as co-author. This new text has been comprehensively reviewed regarding both level and scope. Targeted to a mainstream physical chemistry course, this text features extensively revised chapters on quantum mechanics and spectroscopy, many new chapter-ending problems, and updated references, while biological topics have been largely relegated to the previous two textbooks. Other topics added include the law of corresponding states, the Joule-Thomson effect, the meaning of entropy, multiple equilibria and coupled reactions, and chemiluminescence and bioluminescence. One way to gauge the level of this new text is that students who have used it will be well prepared for their GRE exams in the subject. Careful pedagogy and clear writing throughout combine to make this an excellent choice for your physical chemistry course. Support materials are available for this title. For more details please contact booksales@rsc.org "With expanded coverage and more depth, Chang's newest book is now an excellent fit for students on the BS Chemistry track. It will provide them with the rigorous foundations knowledge they need for advanced studies in any sub-disciplines of chemistry, including biochemistry/biophysical chemistry." -Taina Chao, State University of New York, Purchase "The most student-friendly P Chem text available." -Howard Mayne, University of New Hampshire "I expect this textbook will be high on the list for instructors seeking a thorough, integrated approach to the subject of Physical Chemistry, combined with a clear and conversational writing style."　 -Alan Van Orden, Colorado State University "The new Chang/Thoman text is very good. I like its approach and it is very easy to read and well organized. In my opinion, this text makes a much better approach to Physical Chemistry than the other texts currently sold." -Mark Obrovac, Dalhousie University NOT AVAILABLE IN NORTH AMERICA AND CANADA

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Biotechnology harnesses cellular and biochemical systems to advance knowledge of the molecular cause of disease and to provide new diagnostic tools and more precisely targeted drugs. Within a decade, global investment in medical biotechnology has increased more than ten-fold, resulting in therapies for previously untreatable conditions. But what exactly is biotechnology and what are its origins? What further benefits to human health could it offer in the future? Written in an accessible style, contributors to this book explore the history behind different biotechnology tools, how they are used, and how they are reshaping the future of diagnostics, therapeutics and vaccines. Among the technologies examined are genetic engineering, DNA sequencing, monoclonal antibodies, stem cells, gene therapy, cancer immunotherapy and the most recent newcomer - synthetic biology. Applying new biotechnologies in medicine is not without great challenges. As medicines shift from small organic molecules to large, complex structures, such as therapeutic proteins, drugs become difficult to make, administer and regulate. This book will intrigue anyone interested in medicine and how we have been, and may continue to, engineer better health for ourselves. Such changes have major implications for how and where drugs are manufactured, the cost of medicine and the ethics of how far society is prepared to go to combat disease.

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It has been firmly established over the last quarter century that cosmic dust plays important roles in astrochemistry. The consequences of these roles affect the formation of planets, stars and even galaxies. Cosmic dust has been a controversial topic but there is now a considerable measure of agreement as to its nature and roles in astronomy, and its initiation of astrobiology. The subject has stimulated an enormous research effort, with researchers in many countries now involved in laboratory research and in ab initio computations. This is the first book devoted to a study of the chemistry of cosmic dust, presenting current thinking on the subject distilled from many publications in surface and solid-state science, and in astronomy. The authors discuss the nature of dust, its formation and evolution, the chemistry it can promote on its surfaces, and the consequences of these functions. The purpose of this book is to review current understanding and to indicate where future work is required. Mainly intended for researchers in the field of astrochemistry, the book could also be used as the basis of a course for postgraduate students who have an interest in astrochemistry.

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Biobased products offer substantial economic and environmental benefits, but understanding how to commercialize this requires a comprehensive look at the process, including feedstocks, technologies, product slate, supply chain, policy, financing, and environmental impact. Covering biobased products in a broad context, this book examines the environmental and economic impacts, compares US and EU policies, explores the factors affecting financing, and considers biological conversion, catalytic conversion, and separations. By examining the process from several critical perspectives in the supply chain, this book provides chemical engineers with a better understanding of challenges, opportunities, risks, and benefits of commercialization.

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With 550 pieces and a stunning full-colour design, this jigsaw puzzle beautifully illustrates the periodic table in all its glory. The jigsaw would be an attractive gift for any puzzle-loving friends or relatives, and might even spark an interest in chemistry.

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This book looks at the common techniques used to prepare, purify and identify chemicals. Topics including distillation, recrystallisation, chromatography, elemental analysis, atomic absorption spectroscopy and mass spectrometry are discussed, and are illustrated on video on the accompanying CD-ROMs. Infrared and nuclear magnetic resonance spectroscopy are covered entirely through multi-media, with animations and virtual experiments. The reader is provided with examples for interpretation, and can draw in the structures using the software provided. There is also a set of interactive self-assessment questions. In all, the multi-media software suite comprises more than twelve hours of material. Separation, Purification and Identification concludes with a Case Study on Forensic Science, in which illustrations of criminal cases where spectroscopic techniques provided evidence are given. The Molecular World series provides an integrated introduction to all branches of chemistry for both students wishing to specialise and those wishing to gain a broad understanding of chemistry and its relevance to the everyday world and to other areas of science. The books, with their Case Studies and accompanying multi-media interactive CD-ROMs, will also provide valuable resource material for teachers and lecturers. (The CD-ROMs are designed for use on a PC running Windows 95, 98, ME or 2000.)

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This 2nd edition of Understanding Our Environment has been reworked and greatly updated, providing a modern introductory level text for students of pollution and environmental chemistry. The book describes the basic concepts in relation to the chemistry of the atmosphere, freshwaters, oceans and soils, as well as the ways in which pollutants behave in these media (exemplified by case studies based upon topical environmental problems). It also examines the transfer of pollutants between different environmental compartments, the monitoring of the environment, the ecological and human health effects of chemical pollution, economics and regulatory control. Again case studies are used throughout. This unique introductory text is essential reading for students on undergraduate and first year postgraduate courses dealing with pollution and environmental chemistry, as well as for scientists and engineers in industry, public service and consultancy who require a basic understanding of environmental processes.

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Chemical Vapour Deposition (CVD) involves the deposition of thin solid films from chemical precursors in the vapour phase, and encompasses a variety of deposition techniques, including a range of thermal processes, plasma enhanced CVD (PECVD), photon- initiated CVD, and atomic layer deposition (ALD). The development of CVD technology owes a great deal to collaboration between different scientific disciplines such as chemistry, physics, materials science, engineering and microelectronics, and the publication of this book will promote and stimulate continued dialogue between scientists from these different research areas. The book is one of the most comprehensive overviews ever written on the key aspects of chemical vapour deposition processes and it is more comprehensive, technically detailed and up-to-date than other books on CVD. The contributing authors are all practising CVD technologists and are leading international experts in the field of CVD. It presents a logical and progressive overview of the various aspects of CVD processes. Basic concepts, such as the various types of CVD processes, the design of CVD reactors, reaction modelling and CVD precursor chemistry are covered in the first few chapters. Then follows a detailed description of the use of a variety CVD techniques to deposit a wide range of materials, including semiconductors, metals, metal oxides and nitrides, protective coatings and functional coatings on glass. Finally and uniquely, for a technical volume, industrial and commercial aspects of CVD are also discussed together with possible future trends, which is an unusual, but very important aspect of the book. The book has been written with CVD practitioners in mind, such as the chemist who wishes to learn more about CVD processes, or the CVD technologist who wishes to gain an increased knowledge of precursor chemistry. The volume will prove particularly useful to those who have recently entered the field, and it will also make a valuable contribution to chemistry and materials science lecture courses at undergraduate and postgraduate level.

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This book provides an overview of fundamental concepts of asymmetric synthesis highlighting the significance of stereochemical and stereodynamic reaction control. Topics include kinetic resolution (KR), dynamic kinetic resolution (DKR), dynamic kinetic asymmetric transformation (DYKAT), and dynamic thermodynamic resolution (DTR). In-depth discussions of asymmetric synthesis with chiral organolithium compounds, atropisomeric biaryl synthesis, self-regeneration of stereogenicity (SRS), chiral amplification with chiral relays and other commonly used strategies are also provided. Particular emphasis is given to selective introduction, interconversion and translocation of central, axial, planar, and helical chirality. A systematic coverage of stereochemical principles and stereodynamic properties of chiral compounds guides the reader through the book and establishes a conceptual linkage to asymmetric synthesis, molecular devices that resemble the structure and stereomutations of propellers, bevel gears, switches and motors, and topologically chiral assemblies such as catenanes and rotaxanes. Racemization and diastereomerization reactions of numerous chiral compounds are discussed as well as the principles, scope and compatibility of commonly used analytical techniques. Details of analytical methods are provided and discussed as well as topics relating to the design of fascinating topologically chiral assemblies and molecular technomimetic devices in the context of dynamic stereochemistry. Strategies and recent developments that address important synthetic challenges are presented and highlighted with hundreds of examples, applications and detailed mechanisms. This exceptional book includes: - More than 550 figures, schemes and tables illustrating mechanisms of numerous asymmetric reactions and stereomutations of chiral compounds - Technical drawings illustrating the conceptual linkage between macroscopic devices such as turnstiles, ratchets, brakes, bevel gears or knots and molecular analogs - More than 3000 references to encourage further reading and facilitate additional literature research - A comprehensive glossary with stereochemical definitions and terms which facilitate understanding and reinforce learning This book will be of particular interest to undergraduates, graduates and professionals working and researching in the fields of organic synthetic chemistry and analytical chemistry.

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The formation of disulfide bonds is probably the most influential modification of peptides and proteins. An elaborate set of cellular machinery exists to catalyze and guide this process. In recent years, significant developments have been made in both our understanding of the in vivo situation and the in vitro manipulation of disulfide bonds. This is the first monograph to provide a comprehensive overview of this exciting and rapidly developing area. It offers in-depth insights into the mechanisms of in vivo and in vitro oxidative folding of proteins as well as mono- and multiple-stranded peptides. Procedures applied for laboratory and industrial purposes are also discussed by top experts in the field. The book describes the enzymes involved in the correct oxidative folding of cysteine-containing proteins in prokaryotes and eukaryotes. It then goes on to discuss the mimicking of these enzymes for successful in vitro folding of proteins (including synthetic replicates) and to deal with important issues concerning cysteine-rich peptides. The ability of natural bioactive peptides to fold correctly, and in high yields, to form defined structural motifs using cysteine sequence patterns is still puzzling. With this in mind, synthetic procedures for establishing native cysteine frameworks are discussed using selected examples, such as the potential of selenocysteines. The biotechnological and pharmaceutical relevance of proteins, peptides, their variants and synthetic replicates is continuously increasing. Consequently, this book is invaluable for peptide and protein chemists involved in related research and production.

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Chemical nomenclature is used to identify a chemical species by means of written or spoken words and enables a common language for communication amongst chemists. Nomenclature for chemical compounds additionally contains an explicit or implied relationship to the structure of the compound, in order that the reader or listener can deduce the structure from the name. This purpose requires a system of principles and rules, the application of which gives rise to a systematic nomenclature. Of course, a wide range of traditional names, semisystematic or trivial, are also in use for a core group of common compounds. Detailing the latest rules and international practice, this new volume can be considered a guide to the essential organic chemical nomenclature, commonly described as the "Blue Book". An invaluable source of information for organic chemists everywhere and the definitive guide for scientists working in academia or industry, for scientific publishers of books, journals and databases, and for organisations requiring internationally approved nomenclature in a legal or regulatory environment.

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How can a plant as beautiful as the foxglove be so deadly and yet for more than a century be used to treat heart disease? The same is true of other naturally occurring molecules as will be revealed in these three books which examine poisons, both natural and man-made, and the crimes committed with them, not from the point of view of the murderers, their victims, or the detectives, but from the poison used. Molecules of Murder: Criminal Molecules and Classic Cases, More Molecules of Murder and Poisons and Poisonings: Death by Stealth throw new light on how these crimes were carried out, how the perpetrators were uncovered and brought to justice and information about how forensic analysis is conducted. Appealing to scientists and non-scientists alike, these enthralling books will entertain and educate and bring the reader up to date with how important chemical analysis is in crime detection.

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It is believed that beer has been produced, in some form, for thousands of years - the ancient Egyptians being one civilization with a knowledge of the fermentation process. Beer production has seen many changes over the centuries, and Brewing, Second Edition brings the reader right up to date with the advances in the last decade. Covering the various stages of beer production, reference is also made to microbiology within the brewery and some pointers to research on the topic are given. Written by a recently retired brewer, this book will appeal to all beer-lovers, but particularly those within the industry who wish to understand the processes, and will be relevant to students of food or biological sciences.

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Food safety is important and consumers have a right to expect that those who supply the food that they buy have taken every care to manufacture products that will do them no harm. Those with a responsibility for the regulation of the global food industry recognise this principle and legislate accordingly and the business of managing and regulating the safety of the food supply chain has come a long way in the last 25 years or so. Prompted by the emergence of new food safety hazards, such as the bacterial pathogens Listeria monocytogenes and E. coli O157, powerful new techniques for evaluating and managing the risks presented by these threats have been developed. For example, hazard analysis critical control point, or HACCP, has now become the food safety management system of choice worldwide. Although the food safety management tools are now widely available, they are still virtually useless unless they are supported by adequate and accurate information. HACCP does not work unless its practitioners have access to enough data and scientific knowledge to enable them to understand hazards and how to control them effectively. The Food Safety Hazard Guidebook is an attempt to address the problem of accessing the available information by distilling the key facts about a wide range of individual food safety hazards into a single text. The result is a guidebook, rather than an encyclopaedia, which acts as a portal for the immense and ever expanding body of scientific knowledge that exists for food safety. It is an easy-to-use information resource for anyone with a professional interest in the safety of the food supply. The book is easy to navigate and presents concise and carefully researched factual information on a wide range of biological and chemical hazards in a clear format that is designed to support risk analysis exercises and HACCP studies. It covers a broad range of established and emerging food safety hazards and includes details of authoritative sources of further information (many web-based) for those seeking to examine a topic in greater depth. The section on food allergens is a particularly valuable component of the book, the chapters on fish toxins are also useful and unusual in a book of this kind and bacterial pathogens are comprehensively covered. One of the most important features of the book is the wide scope of the content and the highly structured format designed to help the reader find information quickly. Other key benefits to the reader are: -The wide range of biological and chemical hazards covered in a single book -Written specifically with food industry professionals in mind -Easy to navigate and accessible for the non-expert -Clear and concise presentation of factual information presented in a format that lends itself to use in risk assessment exercises -Inclusion of references and web links to reliable sources of further information on each chapter -specifically designed for practical use by a professional readership.

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The name "Allium" is said to come from the Greek word to avoid because of its offensive smell. The genus Allium includes more than 800 species of which only a few have been cultivated as foods. Many of the other members of this genus are popular with gardeners as easy to maintain perennials, although the smell of some members of the genus can be off-putting. The smell is a consequence of breakdown of sulfur-containing compounds which is a characteristic of this family of plants. Garlic, onions, leeks, chives and other members of the genus Allium occupy a unique position both as edible plants and herbal medicines, appreciated since the dawn of civilization. Alliums have been featured through the ages in literature, where they are both praised and reviled, as well as in architecture and the decorative arts. Garlic pills are top-selling herbal supplements while garlic-based products show considerable promise as environmentally friendly pesticides. The remarkable properties of the alliums can be understood based on the occurrence of a number of relatively simple sulfur-containing chemical compounds ingeniously packaged by nature in these plants. This unique book, with a foreword by 1990 Nobel Laureate E.J. Corey, outlines the extensive history and the fascinating past and present uses of these plants, sorting out fact from fiction based upon detailed scrutiny of historic documents as well as numerous laboratories studies. Readers will be entertained and educated as they learn about early cultivation of garlic and other alliums while being introduced to the chemistry and biochemistry. They will learn how alliums have been portrayed and used in literature, poetry, the arts and how alliums are featured in the world's oldest cookbook. Technical material is presented in a manner understandable to a general audience, particularly through the use of illustrations to simplify more difficult concepts and explain how experimental work is conducted. The book is heavily illustrated with examples of alliums in art, literature, agriculture, medicine and other areas and includes rare botanical drawings of many members of the genus Allium. Essential reading for anyone with a general interest in science, the book is written at a level accessible to experts and non-experts alike. It has sufficient additional detail and references to satisfy both those wanting to know more, as well as researchers in disciplines as diverse as archaeology, medicine, ecology, pharmacology, food and plant sciences, agriculture, and organic chemistry.

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In the first book dedicated to this rapidly expanding research area, Mechanical Behaviour of Metal-Organic Framework Materials, provides a convenient introduction to how chemistry determines structure-mechanical property relationships and functional performance. Much of the research efforts in metal-organic framework (MOF) and hybrid framework materials focus on synthesis and adsorption related properties. But practical applications of MOFs require a precise understanding of mechanical properties and knowledge of structure-property relationships, to ensure robustness in device manufacturing and mechanical resilience for long-term performance. Readers will learn through key experimental and theoretical techniques for studying MOF mechanical properties including elastic and plastic behaviour, framework dynamics, high-pressure response, rate effects, anomalous mechanical behaviour and failure mechanisms. Edited by a pioneer of the field and with contributions by leading researchers developing the new science of “MOF Mechanics”, this book is suitable for both students and researchers who are new to the field.

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Ever wondered why a particular type of fibre is used for a certain application? Readers of this book will gain an appreciation of the answer to this question and more through understanding the chemistry behind the properties of the fibres. Providing a comprehensive overview of the various types of textile fibres that are available today, ranging from natural fibres to high-performance fibres that are very technologically advanced, the book is a revised and updated new edition of a highly successful text. Textiles are ubiquitous materials that many of us take for granted in our everyday lives. We rely on our clothes to protect us from the environment and use them to enhance our appearance. Textiles also find applications in transport, healthcare, construction and many other industries. The third edition of The Chemistry of Textile Fibres updates a significant amount of the information provided in the previous editions, such as the synthesis from renewable resources of monomers for producing synthetic fibres, emerging applications of nanofibres, production of electrically conducting fibres incorporating graphene and carbon nanotubes, and nano-finishing of textiles. It also gives greater emphasis to those aspects of textile chemistry that combat adverse environmental impact, including the chemical decomposition of synthetic polymers and strategies to reduce the damaging impact of microfibers. It introduces the production of micro- and nanomaterials from cellulose as an alternative to relatively toxic and non-ecofriendly micro- and nanomaterials produced from other sources, together with the bio-functionalisation of textiles. Students following A level courses or equivalent and first-year undergraduate students reading textile technology subjects at university will find this book a valuable source of information.

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In food product development, as in all new product development, time is money. This is the first book that describes and explains food development from the point of view of the consumer rather than from the top down approach. Innovative development starts with the consumers and makes use of new disrupting technologies to describe the process. Combining research from experienced and international top quality contributors, it defines the more nuanced development solutions that are becoming available. Coverage includes the use of artificial intelligence, big data and other new technologies that add to the new product development (NPD) process and help to create successful products with shorter lead times. It includes case studies from around the world that consider aspects of consumer behaviour as well as consumer responses to market research. Aimed at all those involved in new product development, e.g. marketing personnel, food engineers and manufacturers as well as food scientists, this book will provide a fascinating insight into this exciting area of research.

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Why are some plants so important to humans? The chemistry of the plants has a lot to do with it! The plant world offers a fascinating way to explore basic chemistry concepts. The spectacular variety of colors, fragrances and other characteristics of plants are driven by the seemingly subtle differences in the structure and properties of organic compounds. Well-known flowers, like daffodils and narcissus, are examples of plants that provide ample perfumes, pigments and poisons as part of their intricate and fascinating chemistry. This second edition retains it accessibility, expanding on the first edition and combining scientific concepts with colorful pictures and stories in simple, clear language. Readers will find introductory information on some chemistry and plant biology. This prepares them for the more complex chemical structures that compose plant substances, many of them of vital importance to humans. The final chapter has been expanded, in particular the sections on medicinal plants and on genetic modification. The end-of chapter references have been thoroughly updated with articles, books, and relevant websites that illustrate the topics discussed. Dr Margareta Sequin, an organic chemist and plant enthusiast, has taught popular undergraduate college level courses on plant chemistry to non-chemistry majors and has led numerous field seminars for the general public. The comments and questions from these audiences and the topics that especially captured people's interest have greatly shaped this book. The Chemistry of Plants addresses an audience with little previous chemistry knowledge, but will appeal to the expert reader looking for an understanding of more complex plant compounds. It can be used both as a text to introduce organic chemistry as it relates to plants and as a text of reference for more advanced readers.

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This glossary expands upon the Comprehensive Glossary of Terms Used in Toxicology. Like its predecessor, it addresses the need for harmonized toxicology terminology, and has undergone a full, comprehensive and rigorous review by IUPAC Committees. It serves as the reference glossary for students and researchers studying the chemical and molecular biological bases of toxicology, and for those involved in chemicals legislation, regulation and risk assessment. Toxicology uses terminology from many disciplines that have been revolutionized by recent developments in molecular biology and biochemistry, and this glossary provides a compilation of definitions of molecular entities that impact on toxicology. Extensive Notes are included to provide context for many of the proteins and important genes defined, with disambiguation where entities are referred to by different names in the literature. We hope that this will be helpful to students and professionals alike.

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Pink warships that vanish at dusk, urinary maladies of an emperor, and a gold test for cocaine – behold the chemistry of metal ions as never before. In this book you will learn about the sarcophagus molecule, the Chen-Kao test, and how murderers can be caught blue-handed with the wonders of glowing luminol. You will also meet the hidden chemistry of metal ions in everyday life, from the clever modern devices that measure blood-sugar levels, to the leather on your shoes and chewing gum stuck to their soles. Expect to encounter a fair share of heroes and villains, real and fictional, scientist and layperson. Such characters include an ex-MI5 employee running a hospital ward in London amid falling German V1 rockets, a notorious racing cyclist, a proud butler and the lady who first proposed nuclear fission (it’s not who you think it is). With engaging, humorous and intelligent prose, the reader will discover the fascinating back-stories of chemical discoveries and inventions where metal ions have played a major role. Featuring a foreword by popular science communicator Dr Raychelle Burks of St. Edward's University, Texas.

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Written for those less comfortable with science and mathematics, this text introduces the major chemical engineering topics for non-chemical engineers. With a focus on the practical rather than the theoretical, the reader will obtain a foundation in chemical engineering that can be applied directly to the workplace. By the end of this book, the user will be aware of the major considerations required to safely and efficiently design and operate a chemical processing facility. Simplified accounts of traditional chemical engineering topics are covered in the first two-thirds of the book, and include: materials and energy balances, heat and mass transport, fluid mechanics, reaction engineering, separation processes, process control and process equipment design. The latter part details modern topics, such as biochemical engineering and sustainable development, plus practical topics of safety and process economics, providing the reader with a complete guide. Case studies are included throughout, building a real-world connection. These case studies form a common thread throughout the book, motivating the reader and offering enhanced understanding. Further reading directs those wishing for a deeper appreciation of certain topics. This book is ideal for professionals working with chemical engineers, and decision makers in chemical engineering industries. It will also be suitable for chemical engineering courses where a simplified introductory text is desired.

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Despite the growing interest in olive oil, most people know very little about what it is or how it is made. This book provides a comprehensive treatment of olive oil from the tree to table, from a molecular and personal perspective. Growers often do not know what is happening at a molecular level or why certain practices produce superior or inferior results, for example, why adjusting a temperature rewards them with winning oils. This book aims to provide some of the answers as well as the importance of the chemicals responsible for the flavour and health effects. Readers will also get a deeper understanding of what makes an extra virgin olive oil authentic and how scientists are helping to fight fraud regarding this valuable commodity. Including anecdotes from growers of olives and producers of oils, the authors provide an accessible text for a wide audience from food science students to readers interested in the human story of olive oil production.

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Reactive inkjet printing uses an inkjet printer to dispense one or more reactants onto a substrate to generate a physical or chemical reaction to form a product in situ. Thus, unlike traditional inkjet printing, the printed film chemistry differs to that of the initial ink droplets. The appeal of reactive inkjet printing as a chemical synthesis tool is linked to its ability to produce droplets whose size is both controllable and predictable, which means that the individual droplets can be thought of as building blocks where droplets can be added to the substrate in a high precision format to give good control and predictability over the chemical reaction. The book starts by introducing the concept of using reactive inkjet printing as a building block for making materials. Aspects such as the behaviour of printed droplets on substrate and their mixing is discussed in the first chapters. The following chapters then discuss different applications of the technique in areas including additive manufacturing and silk production, production of materials used in solar cells, printed electronics, dentistry and tissue engineering. Edited by two leading experts, Reactive Inkjet Printing: A Chemical Synthesis Tool provides a comprehensive overview of this technique and its use in fabricating functional materials for health and energy applications. The book will appeal to advanced level students in materials science.

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Whether you know it or not, you become a chemist any time you step into a kitchen. As you cook, you oversee intricate chemical transformations that would test even the most hardened of professional chemists. Focussing on how and why we cook different dishes the way we do, this book introduces basic chemistry through everyday foods and meal preparations. Through its unique meal-by-meal organisation, the book playfully explores the chemistry that turns our food into meals. Topics covered range from roasting coffee beans to scrambling eggs and gluten development in breads. The book features many experiments that you can try in your own kitchen, such as exploring the melting properties of cheese, retaining flavour when cooking and pairing wines with foods. Through molecular chemistry, biology, neuroscience, physics and agriculture, the author discusses various aspects of cooking and food preparation. This is a fascinating read for anyone interested in the science behind cooking.

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To appreciate the chemistry and physical properties of complexes of the transition series, an understanding of metal-ligand interactions applied to complexes of the d-block is needed. Metal Ligand Bonding aims to provide this through an accessible, detailed, non-mathematical approach. Initial chapters detail the crystal-field model, using it to describe the use of magnetic measurements to distinguish complexes with different electronic configurations and geometries. Subsequent chapters look at the molecular orbital theory of transition metal complexes using a pictorial approach. Bonding in octahedral complexes is explored and electronic spectra and magnetic properties are given extensive coverage. The material addressed in this book forms the foundation of undergraduate lecture courses on d-block chemistry and facilitates learning through various key features, including: full colour diagrams; in-text questions with answers; revision exercises and clearly defined learning outcomes to encourage a reflective approach to study; an associated website; and experimental data and observations from everyday life. A basic knowledge of atomic and molecular orbitals as applied to main group elements is assumed.

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Main Group Chemistry covers the chemistry of the s- and p-block elements, together with a brief chapter on the chemistry of zinc, cadmium and mercury, often classified as main group elements rather than as transition elements. The Periodic Table is an important predictive tool in main group chemistry and in this book, forms the basis for describing the trends and variations in the chemistry of the elements. Introductory material covers the basic principles behind the Periodic Table, bonding, electronegativity and VSEPR (Valence Shell Electron Pair Repulsion) theory. The chemistry of various groups of elements is then discussed. The book incorporates a valuable chapter on inorganic polymers, discussing the chemistry of materials such as silicates, silicones, phosphazenes and diamond. Additional material is available on the website at www.rsc.org/tct Ideal for the needs of undergraduate chemistry students, Tutorial Chemistry Texts is a major series consisting of short, single topic or modular texts concentrating on the fundamental areas of chemistry taught in undergraduate science courses. Each book provides a concise account of the basic principles underlying a given subject, embodying an independent-learning philosophy and including worked examples.

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Analytical chemists must use a range of statistical tools in their treatment of experimental data to obtain reliable results. Practical Statistics for the Analytical Scientist is a manual designed to help them negotiate the daunting specialist terminology and symbols. Prepared in conjunction with the Department of Trade and Industry's Valid Analytical Measurement (VAM) programme, this volume covers the basic statistics needed in the laboratory. It describes the statistical procedures that are most likely to be required including summary and descriptive statistics, calibration, outlier testing, analysis of variance and basic quality control procedures. To improve understanding, many examples provide the user with material for consolidation and practice. The fully worked answers are given both to check the correct application of the procedures and to provide a template for future problems. Practical Statistics for the Analytical Scientist will be welcomed by practising analytical chemists as an important reference for day to day statistics in analytical chemistry.

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Liquid salt innovations can offer significant benefits for improving energy efficiency and reducing the environmental impact of the production of many materials and of processing technologies. Technological advancement relies heavily on a sound understanding of the underlying science of the huge number of liquid salts and their varying properties. This Faraday Discussion aims to bring together scientists and engineers from academia and industry to discuss and debate the state of the art in liquid salts to develop a better understanding of their fundamental properties and how their application can help in addressing some of the most important current global challenges. Topics covered include energy efficiency in process chemistry and engineering, improvements in energy conversion and storage and molten salt based reactors in nuclear energy processes.

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Anisotropy at the nanoscale is a critical factor in the mechanical, optical, electronic, and magnetic properties of nanoparticles. Many unusual properties of colloidal materials arise due to heterogeneous spatial confinement of electrons, plasmons and electric fields around the particles. As the field of nanoparticle synthesis and application matures, there is an increasing need for the design of novel and more complex nanosized objects. In particular, the incorporation of multiple functionalities, the directionality of such functions, and the incorporation of lower or higher dimensional order have great relevance and interest for biomolecule detection, diagnosis and therapeutic medical applications. This Faraday Discussion brings together chemists, physicists, theoreticians, engineers, and biomedical researchers to discuss the use of anisotropy as a tool to design, organize and provide special functions to nanoparticles. It explores the synthesis, formation mechanisms and novel characterization tools of anisotropic nanoparticles; the preparation and properties of particles with two or multiple domains; and biomedical applications.

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One of the key challenges in biophysics and chemical biology is gaining an understanding of the underlying physico-chemical basis of the highly complex structure and properties of biomembranes. It used to be thought that the lipid component played a mainly passive role, simply acting as a self-assembled bilayer matrix within which the active protein components functioned. However, it has now become clear that there is a intimate two-way interplay between the lipid and the protein components in determining membrane structure, organization and dynamics, and that lipids play many active roles in biological function. Concepts such as lateral segregation and domain formation, lateral pressure, curvature and curvature elasticity have attracted enormous interest in recent years, although their validity when applied to real biomembranes remains unclear or even obscure. This Faraday Discussion considered recent developments in the study of biomembrane structure, ordering and dynamics, with particular emphasis on the roles of lipids in these phenomena. As well as discussing new experimental and theoretical findings and novel methodologies, the meeting focused on exploring the relevance of concepts from amphiphile self-assembly and soft matter physics to understanding biomembranes.

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The hydration of ions and the interactions of ions with (bio)molecules play a key role in many natural and technological processes. These effects are usually framed in terms of the lyotropic or Hofmeister series which traditionally orders cations and anions according to their ability to salt-out proteins. Since its formulation more than one hundred years ago, the lyotropic series has been invoked in myriad effects including the crystallization of proteins, enzyme activities, the swelling of tissues, salt solubilities, ion exchange, surface tension of electrolytes, and bubble coalescence. Although it is now clear that the Hofmeister series is intimately connected with ion hydration in homogeneous and heterogeneous environments and with ion pairing, the molecular origin of these effects has been poorly understood. Biochemists and physical chemists have been typically using the term Hofmeister series to put a label on ion specific behaviour in various environments, rather than to reach a molecular level understanding and, consequently, an ability to predict a particular effect of a specific salt ion. This meeting (which took place at Queen's College Oxford in September 2012) aimed to respond to the emerging situation in which science has matured enough to be able to provide answers about the molecular nature of ion specific effects. It explored the most important issues in understanding the chemistry and biological effects of ions, with state of the art work being presented using advanced experimental and computational methods. Investigation of ion specific effects is truly interdisciplinary since it requires chemists, biochemists, and biophysicists to collaborate with each other, combining experimental and computational approaches. We invited researchers in these fields to take part in the Discussion and join the chosen speakers who are among the key scientists behind the recent renaissance of interest in ion specific effects. Themes covered included: Solvation of ions in the aqueous bulk and at interfaces Ion-ion interactions in water Interactions between ions and biomolecules (proteins, nucleic acids, membranes, etc.) in water. Specific Hofmeister effects of ions and osmolytes on protein association, precipitation, folding/unfolding, and activity

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Gas and liquid-phase unimolecular reactions are central to the complex chemistry of a large number of processes, from those occurring in the Earth’s atmosphere to those involved in transportation, power and manufacturing. Improving our understanding of the fundamental chemistry of these processes is critical to solving contemporary challenges such as climate change, as well as improving industrial efficiency. One hundred years have passed since the proposal of the Lindemann mechanism in 1922, and the current state of this field is as exciting and important as ever. The unique format of the Faraday Discussions allows for in-depth discussions across the full scope of the field, from new perspectives in kinetics and dynamics to application to current challenges such as atmospheric pollution, alternative fuels and industrial processes. This volume brings together global leaders to examine the current state of unimolecular reaction experiments as well as theory and applications to current challenges. In this volume the topics covered are organised into the following themes: Collisional energy transfer The reaction step The Master Equation Impact of Lindemann and related theories

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In recent years, mechanochemistry has become a mainstream technique for chemical synthesis, spanning supramolecular materials, inorganic (main group, coordination complexes, MOFs) and organic synthesis, pharmaceutical screening, materials development, sustainable chemistry and reaction discovery, as well as its more traditional applications in alloying etc. The current time is also exciting in terms of advances in the fundamental understanding of kinetics and some of the first reaction models specific to mechanochemistry are being discovered. Mechanochemistry is far broader than synthesis alone. It is also fundamental to understanding shear processes at the molecular level and is being harnessed to accomplish new chemistry through the controlled mechanical scission of polymers. As such, mechanochemistry brings many disciplines together in an effort to provide greater understanding of fundamental molecular processes for large scale, sustainable manufacturing as well as new science. This Faraday Discussion volume brings together internationally-leading researchers to explore and exchange ideas on the physical and chemical principles underlying mechanochemical phenomena. In this volume the topics covered are organised into the following themes: Advances in synthesis Shear processes and polymer mechanochemistry Kinetics and basic understanding Scale up and industrial implementation

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Nanoelectrochemistry is not only important for achieving ultra-sensitive applications in fields ranging from energy to bioanalysis, but also contributes to more fundamental understanding of processes on this scale. While electrochemical processes occur within confined geometries at the nanometre scale, electrochemistry endows us with an ever-increasing ability to measure and understand with unprecedented precision. This Faraday Discussions volume addresses the challenges in both fundamental and applied nanoelectrochemistry, where new concepts and new knowledge play key roles. This volume also encourages cross-disciplinary interactions for electrochemistry with biophysics, nanofabrication, informatics, electronics and beyond. It discusses new concepts and knowledge within the field of nanoelectrochemistry, including new methods and novel applications. These new methods for achieving highly precise electrochemical measurements at nanoscale make it possible to provide fundamental electrochemical techniques to integrate with advanced spectroscopy and informatics technology to achieve real-life applications. This Faraday Discussions volume will potentially both revolutionise understanding in nanoelectrochemistry and guide future developments in this exciting research area. It covers the following topics: Emerging electrochemical methods at the nanointerface State of the art energy conversion at the nanointerface Electrochemical data mining: from information to knowledge Advanced nanoelectrochemistry implementation: from concept to application

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The area of metal-organic frameworks (MOFs) and related materials is arguably one of the hottest interdisciplinary subjects spanning chemistry, materials science, physics and engineering. A primary reason for this major interest is the possibility of tuning the chemical and structural flexibility of these materials using an enormous variety of combinations of metal ions, bridging ligands, counter-ions and formation of hybrids and composites. Given the recent developments in this area, including the emergence of MOFs whose applications and functional properties has led to their commercialisation, the unique format of the Faraday Discussions allows for in-depth discussions across the full scope of this interdisciplinary field, from pioneering synthesis and design to commercial viability in the marketplace. This volume brings together internationally leading researchers interested in the interdisciplinary field of MOFs to explore and exchange ideas on recent developments and future possibilities. In this volume the topics covered are organised into the following themes: Fundamental studies and design of MOFs Applications of MOFs Theory and modelling of MOFs Commercialisation of MOFs

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Photo-induced processes are of tremendous importance in the natural world and across science. Examples include ultrafast process in vision, energy-release by water-splitting in photosynthesis, chemical reactions in the atmosphere, photocatalysis, and technologies such as petahertz electronics, photovoltaics, and light-emitting diodes. Due to the intrinsic complexity of photo-induced processes, they remain the least understood type of physical and chemical processes. Strong and weak laser induced electron and nuclear dynamics on ultrafast time-scales, nonadiabatic dynamics, quantum effects and conical intersections are known to be important, but the full picture is still being unveiled and a cohesive understanding assembled. New experimental techniques, capable of monitoring photo-induced processes with unprecedented temporal and spatial resolution across the entire reaction path, play a key role in this. These developments are driven by the appearance of free-electron lasers, such as the XFEL in Europe, the LCLS (and soon LCLS-II) in the USA, SACLA in Japan, PAL in Korea and Swiss-FEL in Switzerland, new sources of pulsed electrons, table-top based attosecond laser sources, and advanced detection techniques. A large and important contribution is made by advances in theory and computational modelling, in particular in terms of (nonadiabatic) quantum dynamics simulations and theoretical models that improve the interpretation and analysis of experiments. In this volume the topics covered include: Time-resolved Diffraction Time-Resolved Ultrafast Spectroscopy Strong-Field Physics Ultrafast X-ray Science

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Very high levels of air pollution have been observed in many cities across the world, in both developing and developed economies, with varying degrees of regularity. Predicting urban air quality demands detailed knowledge of both the physical properties of the urban atmosphere and pollutants within it, and the chemical reactions of those pollutants, which have a major impact on measured levels. For emitted pollutants, concentrations are likely to be reduced proportionately with reductions in emissions, but in the case of secondary pollutants formed within the atmosphere, the relationship between precursor emissions and reaction products is often strongly non-linear. This discussion aims to improve understanding of the underlying processes responsible, which is essential for the development of high quality numerical models of urban air pollutants, which are required for the testing of mitigation strategies prior to implementation. The following topics are covered within this volume: Current status and trends in air quality in megacities Physico-chemical processes in the urban atmosphere (neighbourhood scale) Physico-chemical processes in the urban atmosphere (city scale) Effects, mitigation and policy

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It is vital to improve our understanding of how macromolecules such as peptides interact with membranes. These processes are involved in protein folding, cell signalling, biogenesis, morphogenesis, disease and medical therapy. Next-generation synthetic biology goals will require a clearer understanding of how to control reticulated membrane structures in order to fabricate the supramolecular structures necessary for advanced synthesis and behaviour. This volume will address several related aspects of peptide interactions with membranes. It will consider model theoretical and experimental systems in order to define the ‘reaction space’ that is possible and where appropriate with relevance to fundamental questions in cell biology, including how peptides and proteins behave within biological membranes. The topics covered include: Theoretical and experimental comparisons of simple peptide-membrane systems Theoretical and experimental studies of complex peptide-membrane systems Behaviour and interactions of proteins and peptides with and within membranes Peptide-membrane interactions and biotechnology

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Over the last 10 years, the field of plasmonic research has emerged as an extremely promising technology with several main fields of application: information technologies, energy, high-density data storage, photovoltaics, chemistry, biology, medicine and security. The main focus up to a few years ago was on the ability of plasmonic nanostructures to generate localized regions of highly concentrated electromagnetic fields, however more recently it has also been realized that the electron part of plasmonic excitations can also be exploited in the physical and chemical sciences. Fascinating proof-of-concept applications have over the last three years been demonstrated in areas such as surface-enhanced catalysis (water splitting), photodetectors without bandgaps (Schottky junctions), and nanoscale control over chemical reactions. These applications as well as the most recent breakthroughs and key challenges in this multidisciplinary and dynamic field are the focus of this Faraday Discussion, offering the perspectives of physicists, chemists and ab-initio theoreticians. In this volume the topics covered include: Dynamics of hot electron generation in metallic nanostructures Theory of hot electrons New materials for hot electron generation Applications in catalysis, photochemistry, and photodetection

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The prediction of crystal structures from first principles has been one of the grand challenges for computational methods in chemistry and materials science. The goal of being able to reliably predict crystal structures at an atomistic level of detail, given only the chemical composition as input, presents several challenges. A solution to the crystal structure prediction challenge requires advances in several areas of computational chemistry. Theoretical chemists have naturally been drawn to these challenges from an academic perspective, while the development of methods for solving the problem of crystal structure prediction has also been motivated by a growing range of applications where reliable structure prediction is sought and could guide experimentation. Crystal structure predictions have been used to study organic molecules such as polymorphism of pharmaceutical molecules, where changes in crystal form can lead to changes in important physical and chemical properties, which must be strictly controlled in a pharmaceutical product, or inorganic materials where the discovery and computational design of new materials with targeted properties, such as porosity, electronic or mechanical properties are necessary. However, the communities addressing methods and applications in organic and inorganic crystal structure prediction have largely remained separate, due to the different approaches that have been used in these two areas. The community as a whole will benefit from the cross-fertilisation of ideas and methods in this volume, as well as from bringing theoreticians together with interested experimentalists. The volume will appeal to researchers from computational chemistry, informatics, physics (applying solid state electronic structure methods) and materials science in the development of methods. Applications of the methods also cover several fields, including crystallography, crystal engineering, mineralogy and pharmaceutical materials. This volume gathers key researchers representing the full scientific scope of the topic, including the developers of methods and software, those developing the application of the methods and interested experimentalists who may benefit from advances in predictive computational methods. In this volume the topics covered include: Structure searching methods Crystal structure evaluation: calculating relative stabilities and other criteria Applications of crystal structure prediction – organic molecular structures Applications of crystal structure prediction – inorganic and network structures

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This volume brings together the work of both theoreticians and experimentalists on the synthesis of nanoparticles and their use in catalytic reactions. Heterogeneous catalysis is a core area of contemporary physical chemistry posing major fundamental and conceptual challenges, and nanoparticles are ubiquitous in many heterogeneous catalysts, therefore it is now opportune to focus a Faraday Discussion on key aspects of their synthesis, characterisation and use. This Faraday Discussion will explore the modern methods being used to design, synthesise and characterize nanoparticles and how these bridge across the disciplines of physical science and chemical engineering. The core aim of this discussion meeting is to develop a fundamental understanding of these crucial aspects of catalytic science, especially relating to nanoparticle synthesis and use in catalytic reactions, knowledge of which is essential for the design of new catalysts.

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Recent advances in nanofabrication and subwavelength optical characterisation have led to significant new advances in plasmonics. In addition to traditional top-down nanofabrication techniques, chemical-based fabrication has emerged as an inexpensive and viable alternative with electrochemical and self-organisation methods for fabrication of plasmonic nanoparticles and extended plasmonic structures. This volume aims to highlight the most recent breakthroughs in this multidisciplinary field and hear from the different perspectives of physicists, chemists and biologists. It connects the various subdisciplines in the field and defines the most challenging problems for the future. This volume is focused on areas where progress is expected to have a most significant impact on a whole area of nanoplasmonics and on commercial exploitation. In this volume the topics covered include: Plasmonic nanoparticles and metamaterials with designed optical properties Surface plasmon enhanced spectroscopies Quantum plasmonics, gain and spasers Biosensing and biomedical applications of plasmonics

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