Topics are: Diagnosis of diseases including cancer, cardiovascular, infectious diseases; Molecular modelling in diagnosis; Enzyme and membrane technologies; Quantum dot fluorescence technologies for monitoring toxins and pathogens.
This book contains 16 chapters. In the first part, there are 8 chapters describing new materials and analytic methods. These materials include chapters on gold nanoparticles and Sol-Gel metal oxides, nanocomposites with carbon nanotubes, methods of evaluation by depth sensing, and other methods. The second part contains 3 chapters featuring new materials with unique properties including optical non-linearities, new materials based on pulp fibers, and the properties of nano-filled polymers. The last part contains 5 chapters with applications of new materials for medical devices, anodes for lithium batteries, electroceramics, phase change materials and matrix active nanoparticles.
The focus in this book is on cutting-edge science and technology of Nanocrystals. "Nanocrystal" is expected to lead to the creation of new materials with revolutionary properties and functions. It will open up fresh possibilities for the solution to the environmental problems and energy problems. We wish that this book contributes to bequeath a beautiful environment and valuable resources to subsequent generations.
This book contains a number of latest research developments on nanocrystals. It is a promising new research area that has received a lot of attention in recent years. Here you will find interesting reports on cutting-edge science and technology related to synthesis, morphology control, self-assembly and application of nanocrystals.
This book is a result of contributions of experts from international scientific community working in different areas and types of nanofibers. The book thoroughly covers latest topics on different varieties of nanofibers. It provides an up-to-date insightful coverage to the synthesis, characterization, functional properties and potential device applications of nanofibers in specialized areas.
Probably the leading team that is driving forward the work on nanogenerators for converting mechanical energy into electricity is Zhong Lin Wang's group at Georgia Tech. So far, we have covered their exciting work in at least half a dozen Nanowerk Spotlights about nanopiezotronics and nanogenerators. To provide a comprehensive and coherent review about the development of nanogeneratos, Wang, Distinguished Professor and Director, Center for Nanostructure Characterization, has organized this book mainly based on our published papers to provide a coherent coverage about the nanogenerators from fundamental materials, basic physics principles and theory, scientific approach, engineering-scale up and technological applications, so that readers can get a full picture about the development of this technology. The entire 139-page book is composed of 11 chapters with hundreds of figures.
The magazine Nanoindustriya supports and promotes original works of domestic and Russian-speaking foreign specialists, introduces readers to the perspectives of development of new areas of nanotechnology and nanomaterials.
Publisher: Institution of Civil Engineers (ICE) Publishing
ISSN: 2045-9831 (print); 2045-984X (online)
The journal brings together research from scientists and engineers working at the juncture of nanomaterials and energy, helping identify new and ever more efficient energy sources with a cost-benefit focus.
The aim of the journal is to publish peer-reviewed papers at the forefront of nanoscale science and technology, bringing together the science and applications of nanoscale and nanostructured materials with an emphasis on the synthesis, processing, characterization, and applications of materials containing nanometric dimensions or nanostructures that enable novel/enhanced properties or functions. The journal will highlight continued growth and new challenges in the nanotechnology field, both for application development and for basic research.
Nanomaterials and the Environment (NATE) exists to serve the needs of this diverse community, providing a forum for the prompt communication of original and innovative developments in nanomaterials and the environment, and in an effort to improve their utilisation and safety. NATE covers, but is not limited to, the development and use of nanoparticles, nanomaterials and nanocomposite devices in environmental applications for water, soil and air decontamination, as environmental monitoring devices, and their use in civil engineering and built environment applications.
The book series Nanomaterials for the Life Sciences, successor to the highly acclaimed series Nanotechnology for the Life Sciences, provides an in-depth overview of all nanomaterial types and their uses in the life sciences. Each volume is dedicated to a specific material class and covers fundamentals, synthesis and characterization strategies, structure-property relationships and biomedical applications.
Contributions to the journal consist of research on nano- and micro- flows and thermal energy transfer in equipment, thermal systems, and applied thermodynamic processes in the nano- and micro- fields of mechanical engineering and related industries. Theory and fundamental research in fluids and solids in nano - field are appropriate for the journal, as work on mass, charge and energy transfer in all kinds of applied problems with long-term, archival goals.