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This book addresses topical aspects of the field from leading authorities, introducing the concepts behind IVIM MRI, outlining related methodological issues, and summarizing its current usage and potential for clinical applications. It also presents future research directions, including methodological development and clinical application fields.
This book focuses on the current state of the art of polymer-based capsules. It discusses the fundamental knowledge of the formations and formulations and the properties and performances of typical polymers capsules, together with their applications.
This book provides a detailed narration of the acceptable techniques/methods for treatment of textile wastewater, such as active ozonation, membrane filtration, and adsorption. It discusses emerging and suitable treatment systems that are viable, efficient, and economical.
This multi-authored book presents some recent trends and research achievements in the field of pharmaceutical nanotechnology and advanced drug delivery nanosystems. The applications of drug delivery nanosystems, which are considered carriers of active pharmaceutical ingredients.
Authored by Wolfgang Palz, an independent expert on energy matters and the economy, this book presents his views on a solar revolution to which he contributed. It is not about ecological dreams and wishful thinking for a better world but a report about what happened, in facts and figures.
Nanomaterials in Architecture and Art Conservation gives a comprehensive overview of the state of the art of using nanomaterials in conservation sciences, mainly for stone, mortar, and plaster strengthening, but also for the consolidation of wall paintings.
This book deals with the emerging concept that certain pathogenic bacteria and viruses, when infecting people with cancer, actively fight tumors, allowing their regression. It is composed of 12 chapters written by pioneers in microbial, biotech, and cancer research.
This book reviews the capabilities of integrated nanosystems to match low power and high performance either by hybrid and heterogeneous CMOS in 2D/3D or by emerging devices for alternative sensing, actuating, data storage, and processing.
This book introduces thermoelectric energy conversion nanomaterials, the latest research progress in them, and related manufacturing processes. It also explains how thermoelectric nanomaterials play an indispensable role in heat-to-electricity energy conversion. It is a must-have reference for readers from academia and industry at all levels.
This book provides a broad view on the exploitation of plasmonics in chemical and biological fields. It emphasizes the role of LSP excitation in promoting and probing specific physical, chemical, or biological effects at the nanoscale.
This book is dedicated to modeling and application of magnetoelectric (ME) effect in layered and bulk composites based on magnetostrictive and piezoelectric materials. The book presents the authors' many years of experience, gained while studying ME composites and creating device models based on their studies.
This book clarifies that signal-transducing particles should be regarded as functional elements, as part of a system, not simply as special materials. It introduces concepts of bead-base sensing and ¿mobile spies¿ at the micro- and nanoscale and gives a representative overview of the variety of particle-based sensing.
This book is a rewritten and annotated version of Leo P. Kadanoff and Gordon Baym's lectures that were presented in the book Quantum Statistical Mechanics: Green's Function Methods in Equilibrium and Nonequilibrium Problems.
This book is a comprehensive survey of the research on such materials. Unlike a monograph or a review book, it covers a wide variety of compounds, details diverse study methodologies, and spans different scientific fields. It contains cutting-edge research in chemistry and physics from the interdisciplinary team of Ehime University (Japan).
This book presents the current aspects of environmental issues in view of chemical processes particularly with respect to two facets: social sciences along with chemistry and natural sciences. The former facet explores the environmental economics and policies along with chemical engineering or green chemistry.
This book details cutting-edge research on luminescence materials and is illustrated throughout with excellent figures and references. It will appeal to anyone involved in luminescence research and its applications, especially advanced undergraduate-, graduate-, and postgraduate-level students of spectroscopy.
An energy transition that took its first tentative steps in the latter part of the 20th century is now unfolding rapidly. The share of solar electricity in Africa and the Middle East is expected to become the next large markets for solar electric systems. This book provides a comprehensive review of why and how this will happen.
This handbook covers medical device regulatory systems in different countries, ISO standards for medical devices, clinical trial and regulatory requirements, and documentation for application. It is the first to cover the medical device regulatory affairs in Asia.
Fluorescent indicators enable the imaging of dynamic changes in cell metabolism. This book covers for the first time imaging at all scales, from macro to sub-micro (super-resolution). All the contributors are at the cutting edge of their field.
This book contains studies on the synthesis of fullerene nanowhiskers (FNWs), fullerene nanotubes (FNTs), and fullerene nanosheets, and the structural, mechanical, semiconducting, and thermal properties of FNWs and related fullerene nanomaterials.
This book compiles cutting-edge research in membrane science, nanomaterials, and nanotechnologies, working on membrane design, membrane process engineering, and selected materials and practices for enhanced transport mass, charge, and energy. The topics covered in this book include the design of new nanostructured membranes with improved properties, together with the identification of efficient transport¿property relationships. This book shares and strengthens the knowledge of making membrane technology a much more powerful and eco-friendly route.
This book focuses on recent developments in the field of green biopolymers and nanomaterials, especially bionanostructured materials and bionanocomposites. Highlights include a detailed discussion of bionanostructured material, food packing reviews, water remediation, and other industrial applications. The book is aimed at beginners in this field.
This book attempts to encompass the state of the science regarding physicochemical characterization of ENMs. It illuminates the effort to understand these properties and how they may be used to ensure safe ENM deployment in existing or future materials and products
This book focuses on the preparation of iron nanomaterials that can carry out removal processes and the use of these nanoparticles for cleaning waters and soils. It carefully explains the different aspects of the synthesis and characterization of iron nanoparticles and methods to evaluate their ability to remove contaminants, along with practical deployment. It overviews the advantages and disadvantages of using iron-based nanomaterials and presents a vision for the future of this nanotechnology.
This book has been written after the author's discovery of a new way in which wave phenomena occur. In the history of science, this is the first time we have realized this new way¿the emission origin of waves¿of producing wave phenomena. The emission origin for wave phenomena is not incompatible with the ideas of quantum theory; rather, it justifies the use of probabilistic methods of quantum theory. However, the emission origin for waves shows that quantum theory is statistically incomplete in, precisely, Einstein's sense. Underlying the ideas of quantum theory, there exists then a certain, previously unexplored, conceptual framework. This book describes such a conceptual framework.
This book gives details of how surgery of the hip joint has evolved around the world. The 22 original chapters are written by experienced consultants, including Drs. John O'Donnell (Melbourne, Australia), Manfred Krieger and Ilan Elias (Frankfurt, Germany), and Nicholas Goddard (London, U.K.). The book focuses on several important topics such as the direct anterior approach to the hip joint, setup of a total hip in a day, early experiences in outpatient hip surgery, advances in short-stem total hip arthroplasty, hemophilic hip joint arthropathy, mesenchymal stem cell treatment of cartilage lesions in the hip over the next few decades, and minimally invasive surgery of the hip joint.
The field of molecular materials represents an exciting playground for the design, tailoring, and combination of chemical building blocks as carriers of physical properties and aims at the understanding and development of novel functional molecular devices. Within this extraordinarily widespread framework, the realization of materials with the desired functionalities can only be achieved through a rational design strategy based on a solid understanding of the chemical and physical features of each constituting building block.This book provides a general overview of molecular materials, discussing their key features in a simple and organic way by focusing more on basic concepts rather than on specialized descriptions, in order to supply the non-expert reader with the immediate fundamental tools and hints to understand and develop research in this field. With this view, it is a step-by-step guide toward the preparation of functional molecular materials, where the knowledge and understanding so far attained by the scientific community through the investigation of significant archetypical examples is deconstructed down to the fundamental basis and then presented in reverse, from the base to the top.
In the age of digitization our society is transformed into a new state. In particular, machine intelligence dramatically elevates our capability to create and digest information. In the most important area of histo-pathology, the interpretation of tissue slices from cancer patients, informatics will have an early and huge impact on treatment decisions and probably will act as the leading discipline for this transformation in medicine. Tissue Phenomics provides a comprehensive methodology aiming at the discovery of the most accurate tissue-based decision support algorithm by close integration of assay development, image analysis and bioinformatics, and optimization feedback loops.
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