ќписание: This book describes the vast opportunity created by unifying science and integrating technology, and recommends transforming ideas for individuals and society. We stand at the threshold of a new renaissance in knowledge based on the structure and behavior of matter from the nanoscale up to the most complex system yet discovered, the human brain. Unification of science based on unity in nature and its holistic investigation will lead to technological convergence and a more efficient societal structure for reaching human goals. In the early decades of the twenty-first century, concentrated effort can bring together nanotechnology, biotechnology, information technology, and new humane technologies based in cognitive science. With proper attention to ethical issues and societal needs, rapid advances in convergent technologies have the potential to enhance both human performance and productivity. Examples of payoffs will include improving work efficiency and learning, enhancing individual sensory and cognitive capabilities, revolutionary changes in healthcare, improving both individual and group efficiency, highly effective communication techniques including brain to brain interaction, perfecting human-machine interfaces, enhancing human capabilities for defense purposes, reaching sustainable development using NBIC tools, and ameliorating the physical and cognitive decline that is common to the aging mind. This is the first book addressing the convergence of technologies in coherence with social sciences, with a focus on people. Science and technology will increasingly dominate the world, as population, resource exploitation, and potential social conflict grow. Therefore, the success of this convergent technologies priority area is seen as crucial to the future of humanity.
јвтор: Varadan, V.K. Ќазвание: Nanoscience and Nanotechnology in Engineering ISBN: 9814277924 ISBN-13(EAN): 9789814277921 »здательство: World Scientific Publishing –ейтинг: ÷ена: 6800 р. Ќаличие на складе: ≈сть у поставщика ѕоставка под заказ.
ќписание: The usage of nanoscience and nanotechnology in engineering directly links academic research in the above two fields of nanoscience and nanotechnology to industries. This book provides the theoretical knowledge and important experimental techniques required for the research and development on nanoscience and nanotechnology in engineering.
јвтор: Silva Gabriel Ќазвание: Nanotechnology for Biology and Medicine ISBN: 038731282X ISBN-13(EAN): 9780387312828 »здательство: Springer –ейтинг: ÷ена: 19224 р. Ќаличие на складе: ≈сть у поставщика ѕоставка под заказ.
ќписание: This text book will bring together a mix of both internationally known and established senior scientists along side up and coming (but already accomplished) junior scientists that have varying expertise in fundamental and applied nanotechnology to biology and medicine.
ќписание: Nanotechnology for Cancer Detection and Diagnosis is organized into sections which include high-level overviews of systems biology and systems technology, descriptions of the platforms which can be applied to the problems, technologies that are essential enablers of nanotechnology, how nanotechnology is and can be used in the near and mid term to approach problems in cancer, and the view of experts as to how to best disseminate this technology, and provide the nidus for further cross fertilization. The section on nanotechnology enablers is extremely important, as it provides the overview of areas that, while not nanotechnology themselves are crucial to the success of the application of nanotechnology to cancer problems. This volume also includes an innovative section on technology dissemination and education, as we believe that these will be critical issues for the use of nanotechnology and its further development through cross-fertilization of disciplines.
јвтор: Rigler Rudolf, Vogel Horst Ќазвание: Single Molecules and Nanotechnology ISBN: 3540739238 ISBN-13(EAN): 9783540739234 »здательство: Springer –ейтинг: ÷ена: 21845 р. Ќаличие на складе: ≈сть у поставщика ѕоставка под заказ.
ќписание: This book focuses on recent advances in the rapidly evolving field of single molecule research. Written by leading experts in the field, the articles cover a broad range of topics, including quantum photonics of organic dyes and inorganic nanoparticles and monitoring of single molecule (enzymatic) reactions.
ќписание: This book will cover the latest advances of polymer-inorganic nanocomposites and will particularly focus on high-added-value applications in fields ranging from electronics, optics, magnetism to biotechnology. Traditionally, organic-inorganic composites are thought of in terms of mechanical properties reinforcement, the polymer-clay system being the typical example. Recently higher value-added applications have been demonstrated opening new industrial perspectives and markets. Focusing this book on electronic, optical, magnetic and bio/medical applications of hybrid nanocomposites where the latest advances are critically reviewed is clearly a unique feature of the book.Characterizations methods: Characterization methods will depend on the intended applications, focusing on the quality control after synthesis of organic-inorganic nanocomposites.Electronic applications: These applications encompass resists for microelectronics, low-k/high-k dielectric films.Optical applications /Photonics: These applications encompass linear and non-linear optical devices, encapsulation of active optical devices.Magnetic applications: These applications encompass non-traditional recording media (e.g. advanced tapes) and new magnetic materials.Bio/medical applications: These "hot" applications encompass bio-resists, tissue engineering, biocompatibility, bio-sensors.
јвтор: Desai Ќазвание: BioMEMS and Biomedical Nanotechnology ISBN: 0387255656 ISBN-13(EAN): 9780387255651 »здательство: Springer –ейтинг: ÷ена: 21412 р. Ќаличие на складе: ≈сть у поставщика ѕоставка под заказ.
ќписание: Volume 3 of the multi-volume reference, BioMEMS and Biomedical Nanotechnology, will be the first comprehensive treatment of the emerging area of therapeutic micro- and nanotechnology. Subjects covered include: cell-based therapeutics, regenerative medicine - merging cells with micro- and nanosystems, and integrating MEMS with cells and tissues; Drug delivery - intravascular nanoparticles for drug targeting and nonvascular delivery (implantable, oral, inhalable); molecular surface engineering for the biological interface, biomolecule patterning and cell patterning.Part I Cell-based Therapeutics.- Neural regeneration.- Three dimensional hydrogel photopatterning.- Self- Assembled Peptides for tissue engineering.- Advanced bioassays for analysis of cell function.- Multicellular Biochips for Sensing.- Microelectromechanical systems and neurosurgery.- Part II Drug delivery.- Nanoporous polymer replicas for sensing drug delivery.- Nanoporous inorganic biocapsules.- Ultrasonic drug delivery.- Bioadhesive microsystems for oral drug delivery.- Targeting nanostructures.- Quantum Dot Technology.- Nanoshells for Drug Delivery.- Oncological Nanosystems.- Part III Molecular Surface Engineering for the Biological Interface.- Controlling cell-cell and cell-surface interactions.- Molecular surface engineering.- Life on a chip: Microfluidic cell culture tools for cell biology studies.- Bioresponsive surfaces.- Supported lipid bilayers as mimics for cell surfaces and as tools in biotechnology.Dr. Tejal Desai is currently an Associate Professor of Physiology and Bioengineering at the University of California, San Francisco. She is also a member of the California Institute for Quantitative Biomedical Research and the UCSF/UCB Bioengineering Graduate Group. Prior to joining UCSF, she was a professor of Biomedical Engineering at Boston University and Associate Director of the Center for Nanoscience and Nanobiotechnology at BU. She received the Sc.B. degree in Biomedical Engineering from Brown University (Providence, RI) in 1994 and the Ph.D. degree in bioengineering from the joint graduate program at University of California, Berkeley and the University of California, San Francisco, in 1998. Dr. Tejal Desai directs the Laboratory of Therapeutic Micro and Nanotechnology. In addition to authoring over 60 technical papers, she is presently an associate editor of Langmuir, Biomedical Microdevices, and Sensors Letters and is editing a book on Therapeutic Microtechnology. She has chaired and organized several conferences and symposia in the area of bioMEMS, micro and nanofabricated biomaterials, and micro/nanoscale tissue engineering. Desai's research efforts have earned her numerous awards. In 1999, she was recognized by Crain's Chicago Business magazine with their annual "40 Under 40" award for leadership. She was also named that year by Technology Review Magazine as one of the nation's "Top 100 Young Innovators" and Popular ScienceвАЩs Brilliant 10. Desai's teaching efforts were recognized when she won the College of Engineering Best Advisor/Teacher Award. She also won the National Science Foundation's "New Century Scholar" award and the NSF Faculty Early Career Development Program "CAREER" award, which recognizes teacher-scholars most likely to become the academic leaders of the 21st century. Her research in therapeutic microtechnology has also earned her the Visionary Science Award from the International Society of BioMEMS and Nanotechnology in 2001, a World Technology Award Finalist in 2004, and the EURAND award for innovative advances in drug delivery. Sangeeta N. Bhatia, M.D., Ph.D., is an Associate Professor at the Massachusetts Institute of Technology. Her work focuses on using micro- and nanotechnology tools to repair damaged tissues. Dr. Bhatia trained at Brown, MIT, and Harvard. After postdoctoral training at the Massachusetts General Hospital , she was a member of the Bioengineering Department at University of California at San Diego for 6 years. In 2005, she returned to Boston to join the MIT faculty. She has been awarded the David and Lucile Packard Fellowship given to вАШthe nation's most promising young professors in science and engineering,' the MIT TR100 Young Innovators Award, and been named one of San Diego 's '50 People to Watch in 2004'. Her research portfolio includes funding from NIH, NSF, DARPA, NASA, the Whitaker Foundation, the Packard Foundation, and private industry. She co-authored the first undergraduate textbook on tissue engineering and is a frequent advisor to governmental organizations on cell-based sensing, nanobiotechnology, and tissue engineering. She holds 12 issued or pending patents and has worked in industry at Pfizer, Genetics Institute, ICI Pharmaceuticals, and Organogenesis.Professor Mauro Ferrari is a pioneer in the fields of bioMEMS and biomedical nanotechnology. As a leading academic, a dedicated entrepreneur, and a vision setter for the Nation's premier Federal programs in nanomedicine, he brings a three-fold vantage perspective to his roles as Editor-in-Chief for this work. Dr. Ferrari has authored or co-authored over 150 scientific publications, 6 books, and over 20 US and Engineering at Berkeley, attended medical school at The Ohio State University, and served in faculty positions in Materials Science and Engineering, and Civil and Environmental Engineering in Berkeley, where he was first tenured. At Ohio State he currently serves as Professor of Internal Medicine, Division of Hematology and Oncology, as Edgar Hendrickson Professor of Biomedical Engineering, and as Professor of Mechanical Engineering. He is Associate Director of the Dorothy M. Davis Heart and Lung Research Institute, and the University's Associate Vice President for Health Science, Technology and Commercialization.
јвтор: Lee Ќазвание: BioMEMS and Biomedical Nanotechnology ISBN: 038725563X ISBN-13(EAN): 9780387255637 »здательство: Springer –ейтинг: ÷ена: 26087 р. Ќаличие на складе: ≈сть у поставщика ѕоставка под заказ.
ќписание: Volume 1 of the multi-volume reference, BioMEMS and Biomedical Nanotechnology, focuses on synthetic nanodevices and the synthesis of nanomaterials and the generation of nanoscale features. The nanomaterials include polymeric microspheres and nanostructures, carbon nanotubes, silicon, silicon dioxide, and iron oxide. There is also a chapter on the characterization of critical nanostructures for bio applications such as nanochannels and nanopores. The second part involves hybrid synthetic-biomolecular nanodevices that utilize the self assembly properties of both biomolecules and synthetic materials. There is a chapter discussing the structure-function relations between biomolecular (protein) and inorganic interfaces. The third part gives the theoretical underpinning of bio nanodevices covering computation methods, informatics, and mechanics. These fundamentals are critical in designing the next generation nanodevices and also understanding the interaction between nanodevices and biological systems to enable more efficient in vitro and in vivo bio applications.This volume is very well illustrated with many of the figures in color.
јвтор: Zhong Lin Wang, Weilie Zhou Ќазвание: Scanning microscopy for nanotechnology ISBN: 0387333258 ISBN-13(EAN): 9780387333250 »здательство: Springer –ейтинг: ÷ена: 17476 р. Ќаличие на складе: ≈сть у поставщика ѕоставка под заказ.
ќписание: Scanning electron microscopy (SEM) can be exploited not only for nanomaterials characterization but also integrated with new technologies for in-situ nanomaterials engineering and manipulation. Scanning Microscopy for Nanotechnology addresses the rapid development of these techniques for nanotechnology, in both technique and application chapters by leading practitioners. The book covers topics including nanomaterials imaging, X-ray microanalysis, high-resolution SEM, low kV SEM, cryo-SEM, as well as new techniques such as electron back scatter diffraction (EBSD) and scanning transmission electron microscopy (STEM). Fabrication techniques integrated with SEM, such as e-beam nanolithography, nanomanipulation, and focused ion beam nanofabrication, are major new dimensions for SEM application. Application areas include the study of nanoparticles, nanowires and nanotubes, three-dimensional nanostructures, quantum dots, magnetic nanomaterials, photonic structures, and bio-inspired nanomaterials. This book will appeal not only to a broad spectrum of nanomaterials researchers, but also to SEM development specialists.
јвтор: Osawa Eiji Ќазвание: Perspectives of Fullerene Nanotechnology ISBN: 0792371747 ISBN-13(EAN): 9780792371748 »здательство: Springer –ейтинг: ÷ена: 20477 р. Ќаличие на складе: ≈сть у поставщика ѕоставка под заказ.
ќписание: The first ever book on the applications of fullerenes and nanotubes. World's experts on the industrial use of these new forms of carbon contributes chapters, that are based on lectures given in a large workshop held on February 2001, and expanded thereafter. The contents are intended for those who are interested in the exploration of industrial applications of fullerenes and carbon nanotubes.
ќписание: This book intended for academic and industrial research scientists and engineers, as well as industrial laboratories working on sensors, biotechnology and opto/electronics details in 17 chapters state-of-the-art technologies and the prospects for micro-contact printing and nanoimprint lithography.
јвтор: Zrinyi Miklos, H√≥rv√ґlgyi Zolt√°n D. Ќазвание: From Colloids to Nanotechnology ISBN: 3540406581 ISBN-13(EAN): 9783540406587 »здательство: Springer –ейтинг: ÷ена: 27022 р. Ќаличие на складе: ѕоставка под заказ.
ќписание: This volume contains a selection of the papers presented at the 8th Conference on Colloid Chemistry. It was hosted by the Hungarian Chemical Society and organized by Budapest University of Technology and Economics and was held in Keszthely, Hungary in September 2002. A colloidal approach to nano science was one of the main topics of the meeting. It was revealed that the colloid science provides a strong background of the modern material science and nanotechnology. This volume is intended for professionals doing fundamental research or development of industrial applications, who encounter colloid particles, colloid structures, and interface phenomena during their work.