Microscale Diagnostic Techniques

Product Description

Microscale Diagnostic Techniques highlights the most innovative and powerful developments in microscale diagnostics. It provides a resource for scientists and researchers interested in learning about the techniques themselves, including their capabilities and limitations. The fields of Micro- and Nanotechnology have emerged over the past decade as a major focus of modern scientific and engineering research and technology. Driven by advances in microfabrication, the investigation, manipulation and engineering of systems characterized by micrometer and, more recently, nanometer scales have become commonplace throughout all technical disciplines. With these developments, an entirely new collection of experimental techniques has been developed to explore and characterize such systems.

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Progress in Nanotechnology

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The fields of nanoscale science, engineering, and technology, more widely known as nanotechnology, have experienced an explosion of interest, both scientific and industrial, over the past decade. This book is a compilation of articles and papers previously published by ACerS on the topic of nanotechnology. Information on research and development, manufacturing, and marketing will provide an excellent reference resource for those involved in this field.

This collection includes 40 articles and papers from the Journal of the American Ceramic Society, Ceramic Transactions (CTs), Ceramic Engineering and Science Proceedings (CESP) and the American Ceramic Society Bulletin.

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Multifunctional Pharmaceutical Nanocarriers

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Various pharmaceutical nanocarriers, such as nanospheres, nanocapsules, liposomes, micelles, cell ghosts, lipoproteins and some others are widely used for experimental (and already clinical) delivery of therapeutic and diagnostic agents. The use of nanoparticulate pharmaceutical carriers to enhance the in vivo efficiency of many drugs well established itself over the past decade both in pharmaceutical research and clinical setting. Looking into the future of the field of drug delivery, we have to think about the development of the next generation of pharmaceutical nanocarriers combining the whole variety of properties and allowing for the simultaneous performance of multiple functions. Surface modification of pharmaceutical carriers is often used to control their properties in a desirable fashion and make them to simultaneously perform several different functions. This book is all about these futuristic multifunctional medicines.

Multifunctional Pharmaceutical Nanocarriers intends to bring together the experts in the field of multifunctional nanopharmaceuticals to provide the reader with the cutting edge information, a critical overview of the field, and analysis of the current and future tendencies and developments to aid in the rapid developments in the field.

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Nanomaterials for Solid State Hydrogen Storage

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Over the past decade, important advances have been made in the development of nanostructured materials for solid state hydrogen storage used to supply hydrogen to fuel cells in a clean, inexpensive, safe and efficient manner. Nanomaterials for Solid State Hydrogen Storage focuses on hydrogen storage materials having high volumetric and gravimetric hydrogen capacities, and thus having the highest potential of being applied in the automotive sector.

Written by leading experts in the field, Nanomaterials for Solid State Hydrogen Storage provides a thorough history of hydrides and nanomaterials, followed by a discussion of existing fabrication methods. The authors’ own research results in the behavior of various hydrogen storage materials are also presented. Covering fundamentals, extensive research results and recent advances in nanomaterials for solid state hydrogen storage, this book serves as a comprehensive reference.

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Nanotechnology Research Directions: IWGN Workshop Report – Vision for Nanotechnology in the Next Decade

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This book documents recent dramatic breakthroughs and prospects for even more important future developments in a wide variety of fields and applications of science and technology related to `nanotechnology’, all involving the control of matter on the nanometer-length scale, that is, at the level of atoms, molecules, and supramolecular structures. As the twenty-first century unfolds, nanotechnology’s impact on the health, wealth, and security of the world’s people is expected to be at least as significant as the combined influences in this century of antibiotics, the integrated circuit, and human-made polymers. The book covers fundamental scientific issues for nanotechnology and reviews progress in the development of the necessary tools for nanotechnology research and applications (e.g. theory, modeling and simulation, experimental methods, and instruments such as scanning probe microscopes). It also surveys a wide variety of current and potential application areas of nanotechnology, including: dispersions, coatings, and large surface area structures; nanodevices, nanoelectronics, and nanosensors; materials science and applications of bulk nanostructured materials with novel properties; biology, medicine, and healthcare; and energy, chemicals, and environmental science. The book incorporates the views of leading experts from U.S. government, academia, and the private sector. It reflects the consensus reached at a workshop held in January 1999, and detailed in contributions submitted thereafter by members of the U.S. science and engineering community. It describes challenges that are posed and opportunities that are offered by nanotechnology and outlines the steps that must be taken in order for humanity to benefit from the advances that are envisioned. This emphasizes three crucial areas: developing a balanced research and development infrastructure, advancing critical research areas, and nurturing the scientific and technical workforce of the next century.

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