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In this STEM-ready book, an acclaimed physicist takes readers into the cutting-edge world of nanoscience where they will learn about the tiny building blocks that make up the world around us.
A lavishly funded, security-conscious nanotechnology institute in the foothills of the Rockies, Nano is ahead of the curve in the competitive world of molecular manufacturing, including the construction of microbivores, tiny nanorobots with the ability to gobble up viruses and bacteria. But when Pia Grazdani takes a job there, she’s shocked by the secretive corporate culture. She’s warned by her boss not to investigate the other work being done at the gigantic facility, nor to ask questions about the source of the seemingly endless capital that funds the institute’s research. And when Pia encounters a fellow employee on a corporate jogging path suffering the effects of a seizure, she soon realizes she may have literally stumbled upon Nano’s human guinea pigs. Is the tech giant on the cusp of one of the biggest medical discoveries of the twenty-first century—a treatment option for millions—or have they already sold out to the highest bidder?
"As this fast-paced nanothriller unfolds, readers are taken on a tour de force of nanotechnology's promises and perils - until the fate of the earth itself hangs in the balance."--BOOK JACKET.
Public interest in the connection between science and religion has recently become very high, but the subject has long been studied by Kabbalists. Years before “nano” entered the vernacular as an abbreviation for “nanotechnology” — which essentially means “less is more” rather than “the bigger, the better” — Rav Berg was speaking and writing about this scientific concept in spiritual terms. And although the concept that less physicality can produce more power was only a recent discovery by scientists, it’s something that Kabbalists have known throughout the ages. In his first new book in many years, Berg examines this idea in depth. He contends that space will continue to shrink until there is nothing between humans and the world around them, lending support to the notion that “we are all one” — and by extension, to the credo “love thy neighbor as thyself.”
Deals with some of the important magnetic, electronic and optical properties of nano materials citing the most useful and the most well-studied materials of importance. This title also deals with the novel technique such as sol-gel and other methods, along with a survey on nano-optics, nano-magnetics and nano-electronics.
"Increasingly, scientists are gaining control over matter at the nanometer scale. Spearheaded by physical scientists operating at the interfaces of physics and biology (such as the author herself), advances in nanoscience and technology are transforming how we think about life and treat human health. This is due to a convergence of size. To do medicine, one must understand and be able to reach the nanoscale environment of healthy cells in tissues and organs, as well as other nano-sized building blocks that constitute a living organism, such as proteins and DNA. The ground-breaking advances being made at the frontiers of nanoscience and -technology, specifically in the areas of biology and medicine, are the subject of this short, popular-level book. Chapter 1 describes how nanotechnology and quantitative methods in biology are progressively being deployed to embrace life in all its multiscale, hierarchical intricacy and multiplicity. Chapters 2 through 4 review how bioinspired and biomimetic nanostructures and nanomachines are being created and integrated into strategies aimed at solving specific medical problems. In particular, Chapter 2 summarizes how scientists are seeking to build artificial nanostructures using both biological molecules and the organizational principles of biology. Chapter 3 gives an account of how nanotechnology is being used to develop drug-delivery strategies that specifically target cancer cells and tumors to improve the efficacy of current cancer chemotherapies. Chapter 4 reviews the science of one of the most potentially transformative scientific fields: tissue engineering. In a concluding chapter (Chapter 5), Contera reviews how nanotechnology, biology, and medicine will continue fusing with other sciences and technologies - incorporating more mathematical and computational modelling, as well as AI and robotics. Nanoscale devices will be used to learn biology; and biology will be used to inspire increasingly sophisticated "transmaterial" devices that mimic some of the characteristics of biology and incorporate new features that are not available in the biological world. The effects on human health and longevity will be profound. In a more personal epilogue, Contera describes the crossroads at which we find ourselves. Accessing our own biology evokes a mixture of possibility and dread. However, Contera maintains that we can create a positive transmaterial world for the benefit of humankind, and she describes ways in which scientists are proactively engaging with the public, politicians, industry, and entrepreneurs, as well as the media and the arts, to communicate the power and risks of new advances and to influence the ways in which new technologies will affect our future"--
This text book presents a basic scope of Nanoscience and Nanotechnology, focusing on key essentials, origin of nanotechnology, definition of Nanoscience and Nanotechnology and delivers simple examples of applications in various fields. The textbook is relevant academically for undergraduate and graduate students in majors such as Chemical Engineering, Material Science, Electrical Engineering, Bioengineering, Nanoscience, since it would assist in understanding the main concepts of nanotechnology.
Nanotechnology, the science of molecular engineering at the atomic scale, has captured the popular imagination. From movies to TV series to video games, utopian fantasies and horror scenarios involving nanotechnology have become a staple of the entertainment industry. The hyperbole surrounding this new technology comes not only from the media but also from scientists who exaggerate the anticipated benefits of nanotechnology to justify research funding, as well as from environmentalists and globalization opponents, who sometimes indulge in doom-and-gloom prophecies to advance their own agendas. The result is widespread misinformation and an uninformed public.In an effort to set the record straight, professor of communication studies David M. Berube has written this thoroughly researched, accessible overview of nanotechnology in contemporary culture. He evaluates the claims and counterclaims about nanotechnology by a broad range of interested parties including government officials and bureaucrats, industry leaders and entrepreneurs, scientists, journalists, and other persons in the media. Berube appraises programs and grand initiatives here and abroad, and he examines the environmental concerns raised by opponents, as well as the government and private responses to these concerns. With so much argumentation on both sides, it is difficult for anyone to determine what is true. Nano-Hype provides up-to-date, objective information to inform the public.Based on over a decade of research and interviews with many of the movers and shakers in nanotechnology, this critical study will help the reader separate the realistic prospects from the hype surrounding this important cutting-edge technology.
This book reports on cutting-edge modeling techniques, methodologies and tools used to understand, design and engineer nanoscale communication systems, such as molecular communication systems. Moreover, it includes introductory materials for those who are new to the field. The book’s interdisciplinary approach, which merges perspectives in computer science, the biological sciences and nanotechnology, will appeal to graduate students and researchers in these three areas.The book is organized into five parts, the first of which describes the fundamentals of molecular communication, including basic concepts, models and designs. In turn, the second part examines specific types of molecular communication found in biological systems, such as neuronal communication in the brain. The book continues by exploring further types of nanoscale communication, such as fluorescence resonance energy transfer and electromagnetic-based nanoscale communication, in the third part, and by describing nanomaterials and structures for practical applications in the fourth. Lastly, the book presents nanomedical applications such as targeted drug delivery and biomolecular sensing.