الصفحة 20
الصفحة 20
Nanoscaled Semiconductor-on-Insulator Structures and Devices
This proceedings volume constitutes an archive of the contributions of the key-speakers who attended the NATO Advanced Research Workshop on “Nanoscaled Semiconductor-On-Insulator Structures and devices” held in the Tourist and Recreation Centre “Sudak” (Crimea, Ukraine) from 15 to 19 October 2006. The semiconductor industry has sustained a very rapid growth during the last three decades through impressive technological developments which have resulted in products with higher performance and lower cost per function. After many years of development it is now confidently predicted that semiconductor-on-insulator materials will enter and increasingly be used by manufacturing industry. The wider use of semiconductor (es- cially silicon) on insulator materials will not only enable the benefits of these materials to be demonstrated but, also, will drive down the cost of substrates which, in turn, will stimulate the development of other novel devices and applications.
Nanoscale Transistors : Device Physics, Modeling and Simulation
The book is a useful reference for senior-level or graduate-level courses on nanoelectronics, modeling and simulation. Chapter 1 reviews some basic concepts, and Chapter 2 summarizes the essentials of traditional semiconductor devices, digital circuits, and systems. This material provides a baseline against which new devices can be assessed. Chapters 3 and 4 present a non-traditional view of the MOSFET using concepts that are valid at nanoscale. Chapter 5 applies the same concepts to nanotube FET as an example of how to extend the concepts to revolutionary nanotransistors. Chapter 6 explores the limits of devices by discussing conduction in single molecules.
Nanoscale Photonic Imaging
This book, edited and authored by a team of world-leading researchers, provides a broad overview of advanced photonic methods for nanoscale visualization, as well as describing a range of fascinating in-depth studies.
Nanopharmaceuticals ; Vol.1 : Expectations and realities of multifunctional drug delivery systems
Reviews advances in the drug delivery field via nanovehicles or nanocarriers that offer benefits like targeted therapy and serves as a single dose magic bullet for multiple drug delivery with improved drug efficiency at a lower dose, transportation of the drug across physiological barriers as well as reduced drug-related toxicity. The chapters are written by a diverse group of international researchers from industry and academia. The series Expectations and Realities of Multifunctional Drug Delivery Systems examines the fabrication, optimization, biological aspects, regulatory and clinical success of wide range of drug delivery carriers. This series reviews multifunctionality and applications of drug delivery systems, industrial trends, regulatory challenges and in vivo success stories. Throughout the volumes discussions on diverse aspects of drug delivery carriers, such as clinical, engineering, and regulatory, facilitate insight sharing across expertise area and form a link for collaborations between industry-academic scientists and clinical researchers. Expectations and Realities of Multifunctional Drug Delivery Systems connects formulation scientists, regulatory experts, engineers, clinical experts and regulatory stake holders. The wide scope of the book ensures it as a valuable reference resource for researchers in both academia and the pharmaceutical industry who want to learn more about drug delivery systems.
Nanopharmaceuticals : Vol.3 : Principles and applications
Focuses on the recent advances of nanopharmaceuticals in cancer, dental, dermal and drug delivery applications and presents their safety, toxicity and therapeutic efficacy. The book also includes the transport phenomenon of nanomaterials and important pathways for drug delivery applications. It goes on to explain the toxicity of nanoparticles to different physiological systems and methods used to assess this for different organ systems using examples of in vivo systems.
Nanopharmaceutical advanced delivery systems
Provides a single volume covering detailed descriptions about various delivery systems, their principles and how these are put in use for the treatment of multiple diseases. It is divided into four sections where the first section deals with the introduction and importance of novel drug delivery system. Deals with the most advanced drug delivery systems like microbubbles, dendrimers, lipid-based nanoparticles, nanofibers, microemulsions etc., describing the major principles and techniques of the preparations of the drug delivery systems. Elaborates on the treatments of diverse diseases like cancer, topical diseases, tuberculosis etc.
Nanoparticles in Biomedical Imaging : Emerging Technologies and Applications
Fundamental Biomedical Technologies features titles in multidisciplinary, technology-driven areas, providing the foundations for breakthrough advances in medicine and biology. The term technology refers, in a vigorously unrestrictive sense, to a broad array of engineering disciplines, the sciences of computation and informatics, mathematical models exploiting and advancing methods of mathematical physics, and the development of novel, experimental discovery devices. Titles in this series are designed and selected to provide high-level visionary input for specialists, while presenting overviews of emerging fields for those in related areas. Volumes in this series aim to provide technologists with the material to gain competent entry into biomedical research and biomedical researchers to understand and embrace novel technological foundations and tools.
Nanoparticle-Based Drug Delivery in Cancer Treatment
Discusses nanotechnological developments of interfering RNA-based nanoparticles, delivery vehicles, and validated therapeutic RNAi–molecular target interactions and explains the results of clinical and preclinical trials. The book also gives strategies for universal methods of constructing hybrid organic–inorganic nanomaterials that can be widely applied in the biomedical field. Focuses on : Recent advances of nanoparticle-mediated siRNA delivery systems and their application in clinical trials for cancer therapy Material platforms that establish NPs and both localized and controlled gene silencing The most promising systems for clinical application Surveys progress in nanoparticle-based nanomedicine in cancer treatment The most advanced of the nonviral nanocarriers for delivery of oligonucleotides to malignant blood cancer cells
Nanoparticle-based cancer vaccines
Reviews the fundamentals of cancer vaccines, explores the role of nanotechnology in improving vaccine design and delivery, and evaluates current clinical applications, challenges, and regulatory considerations, highlighting the potential of nanoparticle-based cancer vaccines in future cancer treatment.
Nanomedicine : Innovations, applications, and breakthroughs in the quest for health and medicine's future
Revolutionizing healthcare, by providing innovative solutions to some of the most challenging issues in medicine. This book provides an in-depth overview of nanoscale materials and devices that are advancing diagnostics, therapeutics, and personalized care in medical field. It focuses on nanomedicine’s impact on vaccine efficacy as well as innovative diagnosis and therapy for various type of cancer while addressing concerns about safety and toxicity. It examines how nanotechnology is enhancing drug delivery by precisely targeting medicines to specific cells or tissues, thereby increasing treatment efficacy with reduced side effects. Explores how nanoparticles are advancing medical imaging for earlier and more accurate disease detection, and how nanosensors allow real-time biomarker monitoring for faster and more reliable diagnoses. Additionally, it explores nanomedicine's role in managing cardiovascular diseases, improving bone health through nano-extracellular vesicles, and regenerative medicine, including ongoing clinical trials and ethical considerations.
Nanomaterials and nanotechnology in medicine
The use of nanotechnology and nanomaterials more generally is an emerging field that has generated a lot of interest in the last few years. To this point, there have been few books that deal with the recent advances in nanomaterials or nanocomposites in the medical discipline. Intended as a one-stop reference, Nanomaterials and Nanotechnology in Medicine provides the reader with the most-up-to-date and comprehensive exploration of the field of nanomedicine. The scope of the topic is huge, with nano applications in every medical specialization—from diagnostics to pharmaceuticals, from biological therapies to surgical devices, and from regenerative therapies to gene therapy. As such, this volume provides the most comprehensive coverage of this intriguing field of study.
Nanofillers : Fabrication, characterization and applications of organic nanofillers
Explores the modifying effects of various nanofillers on mechanical and physical properties of polymer nanocomposites. Looking at the four basic aspects of processing, characterization, properties, and applications, it analyzes how their features can allow for innovative multifunction within industry. Covering design, production, and manufacture, this book focuses on meeting end-use requirements and the fabrication of materials. The importance of mindful design and the use of an appropriate synthesis method is the primary lens through which theory and practice are discussed. This volume looks at the various synthesis methods available for organic nanofillers and what characterizes them. Properties including mechanical, thermal, electrical, and tribological are thoroughly examined, along with the various computational techniques used to determine them. With important sustainable properties, nanofillers are essential to meeting the increasing demand for biodegradable and environmentally friendly materials. This book details the role nanofillers have to play in sustainability, alongside economic factors such as efficient manufacturing processes.
Nanoelectronics and Photonics : From Atoms to Materials, Devices, and Architectures
Nanoelectronics and Photonics: From Atoms to Materials, Devices, and Architectures provides a description of the core elements and challenges of advanced and future information technology. By linking the materials physics and chemistry at the atomic scale with device and circuit design and performance requirements, tutorial chapters from leaders in the field present a coherent picture of theoretical and experimental research efforts and technology development in this highly interdisciplinary area.
Nanocarrier Technologies : Frontiers of Nanotherapy
Nanobiotechnology is one of the key technologies of the 21st century. It is a combination of nanoscience and biotechnology and covers areas ranging from gene transfer and nanoencapsulation to food technology. Nanocarriers are a leading nanobiotechnology tool with the ability to provide protection, site-specific delivery, enhanced bioavailability and controlled release of pharmaceuticals, genetic material, imaging agents, nutraceuticals and cosmetics to name a few. For this reason, the study of nanocarriers, their properties and applications has attracted a great deal of interest over recent years. Designed as an advanced survey of the field, this book describes the key research parameters of nanocarrier technologies including their preparation methods, evaluation of their safety and efficiency, their interaction with biologicals and their application in biotechnology, drug delivery, gene therapy and food technology areas.
Nanobiotechnology of Biomimetic Membranes
Nanobiotechnology of Biomimetic Membranes focuses on biomimetic membranes. The application of nanotechnology principles and methodology to problems in biotechnology provides an exciting new discipline that will generate a revolution of novel applications, across many disciplines. This valuable new title offers an international perspective on the development of biotechnology applications.
NanoBiotechnology : BioInspired Devices and Materials of the Future
NanoBioTechnology: BioInspired Devices and Materials of the Future is a groundbreaking text that will assist scientists and students in learning the fundamentals and cutting-edge nature of this new and emerging science. Focusing on materials and building blocks for nanotechnology, leading scientists from around the world share their knowledge and expertise in this authoritative volume. The volume is broken into five sections. The first section presents an overview of nanotechnology and describes the many aspects of the field. Section 2 details biological materials serving as nanotemplates for bottom-up fabrication. Section 3 covers the use of biological macromolecules for electron transfer and computation. Section 4 presents a brief overview of the extensive and rapidly growing field of nanomedicine. Finally, Section 5 details de-novo designed structures and the various approaches different scientific groups take with molecular level training and language
Nano physical pharmaceutics
Nanomedicine is an emerging and rapidly evolving field, which could significantly help in early disease diagnosis, therapeutic improvement, novel therapeutic modality development, and medical expenditure reduction. The challenge remains, however, that the specially designed and carefully synthesized nanomedicines function poorly in animal verification despite great performance in vitro. A deeper understanding of the physicochemical properties of nanomedicine is the key. This book applies physical theories and models to determine the parameters for controlling the physicochemical properties of nanomedicines, including micelles, liposomes, and inorganic nanoparticles. Qualitative and quantitative relationships are established to provide guidance for nanomedicine design, characterization, and analysis. The text also compiles cutting-edge research in nanomedicine from the interdisciplinary team of the Department of Nanomedicine at Naval Medical University, China, which is currently establishing the characteristic discipline called Nano Physical Pharmaceutics. Edited by Wei Li, a prominent nanotechnology researcher, this book will appeal to anyone involved in nanotechnology, medicine, macromolecular science, biology, chemistry, and especially those with an interest in drug delivery or cancer therapy.
N4-Macrocyclic Metal Complexes
The study of nanoparticles is anchored in Colloid Science. Colloid Science as we consider it today was nucleated by Wolfgang Ostwald and initiated by his biological studies. The strong connection between biology and Colloid Science lost attractiveness in the last decades. The revival of this interdisciplinary science is now noted and we hope that a signal will start from the Potsdam conference. "This is an excellent and detailed book of 14 chapters that is timely in its reviews of the electrochemical and electrocatalytic properties of the porphyrinoids and is written by a range of experts in the different fields covered.
Myths, Narratives and the Dilemma of Managerial Support : Organizational learning as an alternative?
Alexander Dreiling investigates which information should be provided to management in order to prepare managers to make better decisions and act accordingly. Based upon Argyris' and Schön's theory of organizational learning, managers are continuously supplied with information on the basis of whether and how well they have achieved their objectives. If they detect a mismatch of expectations and outcomes, they can in turn adjust their actions. The author first introduces the learning concept, before he turns to developing a method which can be used in order to create “paradigmatically different” managerial reporting environments. The three case studies reveal application scenarios as well as limits of the method.
Mysteries of English Grammar : A Guide to complexities of the English Language
Despite a history of hundreds of years of research analysing aspects of English grammar, there are still open problems which continue to baffle language researchers today. Such ‘grammar mysteries’ arise for a number of reasons: because the language is changing; because different speakers of the language adhere to distinct norms and thus introduce and maintain variation in the system; because there are differences between the grammar of spoken and written English.
