New Nanotechnology Research


Book Description

Nanotechnology is a 'catch-all' description of activities at the level of atoms and molecules that have applications in the real world. A manometer is a billionth of a meter, about 1/80,000 of the diameter of a human hair, or 10 times the diameter of a hydrogen atom. Nanotechnology is now used in precision engineering, new materials development as well as in electronics; electromechanical systems as well as mainstream biomedical applications in areas such as gene therapy, drug delivery and novel drug discovery techniques. This book presents the latest research in this frontier field.




Nanotechnology


Book Description

Advances in physics, molecular biology, and computer science are converging on the capacity to control, with molecular precision, the structure and function of matter. These twenty original contributions provide the first broad-based multidisciplinary definition and examination of the revolutionary new discipline of molecular engineering, or nanotechnology. They address both the promise as well as the economic, environmental, and cultural challenges of this emerging atomic-scale technology. Leaders in their field describe current technologies that feed into nanotechnology - atomic imaging and positioning, protein engineering, and the de novo, design and synthesis of self-assembling molecular structures. They present development strategies for coordinating recent work in chemistry, biotechnology, and scanning-probe microscopy in order to successfully design and engineer molecular systems. They also explore advances in molecular and quantum electronics as well as reversible computational systems and the fundamental physical constraints on computation. Additional chapters discuss research efforts in Japan and present the prospects of nanotechnology as seen from the perspective of a microtechnologist. The final section looks at the implications of success, including the prospects of enormous computational power and the radical consequences of molecular mechanical systems in the fields of medicine and life extension. Contributors Robert Birge. Federico Capasso. BC Crandall. K. Eric Drexler. Gregory Fahy. Richard Feynman. John Foster. Tracy Handel. Bill Joy. Arthur Kantrowitz. Joseph Mallon. Norman Margolus. Ralph Merkle. Lester Milbrath. Gordon Tullock. Hiroyuki Sasabe. Michael Ward




Nanotechnology, Lessons from Nature


Book Description

As long as humans have existed on the planet, they have looked at the world around them and wondered about much of what they saw. This book covers 21 different phenomena that have been observed in nature and puzzled about for decades.Only recently, with the development of the microscopes and other tools that allow us to study, evaluate, and test these observed phenomena at the molecular and atomic scale, have researchers been able to understand the science behind these observations. From the strength of a marine sponge found at the depths of the oceans, to the insect-hydroplaning surface of the edge of a plant, to the intricacies of the eyes of a moth, nanotechnology has allowed science to define and understand these amazing capabilities. In many cases, this new understanding has been applied to products and applications that benefit humans and the environment. For each of the five ecosystems— the ocean, insects, flora, fauna, and humans—the observations, study and understanding, and applications will be covered. The relationship between the more easily observed macro level and understanding what is found at the nanoscale will also be discussed.




Chemical Nanoscience and Nanotechnology


Book Description

This new volume presents a wealth of practical experience and research on new methodologies and important applications in chemical nanotechnology. It also includes small-scale nanotechnology-related projects that have potential applications in several disciplines of chemistry and nanotechnology. In this book, contributions range from new methods to novel applications of existing methods to gain understanding of the material and/or structural behavior of new and advanced systems. Topics cover computational methods in chemical engineering and chemoinformatics, studies of some of physico-chemical properties of several important nanoalloy clusters, the use of 3D reconstruction of nanofibrous membranes, nanotechnology research for green engineering and sustainability, nanofiltration and carbon nanotubes applications in water treatment, and much more.




Nanotechnology


Book Description

Buckyballs. Quantum dots. Golden triangles. Organic light-emitting diodes. Welcome to the world of nanotechnology - the engineering of new materials and new products, the use of new manufacturing techniques, all exploiting properties possessed at the infinitesimally small, or nano, scale. Virtually every large corporation now has a nanotechnology R & D operation. The US government is putting in serious investment. Huge promises are held out in the fields of medicine, energy, computing. And, more ominously, the Pentagon is exploring nano applications in a new generation of hi-tech weaponry. But as this book makes clear: * There is little public debate, even among consumer groups or trade unions, about the ways in which nanotechnologies are creeping into our lives as consumers and workers. * Regulatory agencies take no account of scale when assessing the safety of new products and there is no regulatory framework for nanotechnology even in industrialized countries. * Little research is going on into the health and environmental consequences, and safety, of nano-materials. This book explains the fast moving world of the new technology and who controls it. It explores the potential consequences - the upsides as well as the downsides - for individuals, the environment, and relations between the powers. Nanotechnology could bridge or widen the gap between developing and industrialised countries - that is a political decision that civil society must address.




Nanotechnology in Biology and Medicine


Book Description

Nanotechnology in biology and medicine: Research advancements & future perspectives is focused to provide an interdisciplinary, integrative overview on the developments made in nanotechnology till date along with the ongoing trends and the future prospects. It presents the basics, fundamental results/current applications and latest achievements on nanobiotechnological researches worldwide scientific era. One of the major goals of this book is to highlight the multifaceted issues on or surrounding of nanotechnology on the basis of case studies, academic and theoretical articles, technology transfer (patents and copyrights), innovation, economics and policy management. Moreover, a large variety of nanobio-analytical methods are presented as a core asset to the early career researchers. This book has been designed for scientists, academician, students and entrepreneurs engaged in nanotechnology research and development. Nonetheless, it should be of interest to a variety of scientific disciplines including agriculture, medicine, drug and food material sciences and consumer products. Features It provides a thoroughly comprehensive overview of all major aspects of nanobiotechnology, considering the technology, applications, and socio-economic context It integrates physics, biology, and chemistry of nanosystems It reflects the state-of-the-art in nanotechnological research (biomedical, food, agriculture) It presents the application of nanotechnology in biomedical field including diagnostics and therapeutics (drug discovery, screening and delivery) It also discusses research involving gene therapy, cancer nanotheranostics, nano sensors, lab-on-a-chip techniques, etc. It provides the information about health risks of nanotechnology and potential remedies. It offers a timely forum for peer-reviewed research with extensive references within each chapter




Best Practices in State and Regional Innovation Initiatives


Book Description

Most of the policy discussion about stimulating innovation has focused on the federal level. This study focuses on the significant activity at the state level, with the goal of improving the public's understanding of key policy strategies and exemplary practices. Based on a series of workshops and conferences that brought together policymakers along with leaders of industry and academia in a select number of states, the study highlights a rich variety of policy initiatives underway at the state and regional level to foster knowledge based growth and employment. Perhaps what distinguishes this effort at the state level is most of all the high degree of pragmatism. Operating out of necessity, innovation policies at the state level often involve taking advantage of existing resources and recombining them in new ways, forging innovative partnerships among universities, industry and government organizations, growing the skill base, and investing in the infrastructure to develop new technologies and new industries. Many of these initiatives are being guided by leaders from the private sector and universities. The objective of Best Practices in State and Regional Innovation Initiatives: Competing in the 21st Century is not to do an empirical review of the inputs and outputs of various state programs. Nor is it to evaluate which programs are superior. Indeed, some of the notable successes, such as the Albany nanotechnology cluster, represent a leap of leadership, investment, and sustained commitment that has had remarkable results in an industry that is actively pursued by many countries. The study's goal is to illustrate the approaches taken by a variety of highly diverse states as they confront the increasing challenges of global competition for the industries and jobs of today and tomorrow.




Nanotechnology Research Directions: IWGN Workshop Report


Book Description

energy production, environmental management, transportation, communication, computation, and education. 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. Dr. Neal Lane, Advisor to the President for Science and Technology and former National Science Foundation (NSF) director, stated at a Congressional hearing in April 1998, "If I were asked for an area of science and engineering that will most likely produce the breakthroughs of tomorrow, I would point to nanoscale science and engineering. " Recognizing this potential, the White House Office of Science and Technology Policy (OSTP) and the Office of Management and Budget (OMB) have issued a joint memorandum to Federal agency heads that identifies nanotechnology as a research priority area for Federal investment in fiscal year 2001. This report charts "Nanotechnology Research Directions," as developed by the Interagency W orking Group on Nano Science, Engineering, and Technology (IWGN) of the National Science and Technology Council (NSTC). The report incorporates the views of leading experts from government, academia, and the private sector. It reflects the consensus reached at an IWGN-sponsored workshop held on January 27-29, 1999, and detailed in contributions submitted thereafter by members of the V. S. science and engineering community. (See Appendix A for a list of contributors.




An Introduction to Nanoscience and Nanotechnology


Book Description

"Part of this book adapted from "Introduction aux nanosciences et aux nanotechnologies" published in France by Hermes Science/Lavoisier in 2006."




New Trends in Nanotechnology and Fractional Calculus Applications


Book Description

In recent years fractional calculus has played an important role in various fields such as mechanics, electricity, chemistry, biology, economics, modeling, identification, control theory and signal processing. The scope of this book is to present the state of the art in the study of fractional systems and the application of fractional differentiation. Furthermore, the manufacture of nanowires is important for the design of nanosensors and the development of high-yield thin films is vital in procuring clean solar energy. This wide range of applications is of interest to engineers, physicists and mathematicians.




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