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| bionanotechnology lessons from nature: Bionanotechnology David S. Goodsell, 2004-04-16 Discussions of the basic structural, nanotechnology, and system engineering principles, as well as an introductory overview of essential concepts and methods in biotechnology, will be included. Text is presented side-by-side with extensive use of high-quality illustrations prepared using cutting edge computer graphics techniques. Includes numerous examples, such applications in genetic engineering. Represents the only available introduction and overview of this interdisciplinary field, merging the physical and biological sciences. Concludes with the authors' expert assessment of the future promise of nanotechnology, from molecular tinkertoys to nanomedicine. David Goodsell is author of two trade books, Machinery of Life and Our Molecular Nature, and Arthur Olson is the world's leader in molecular graphics and nano-scale representation. |
| bionanotechnology lessons from nature: NanoBioTechnology Oded Shoseyov, Ilan Levy, 2008-02-07 NanoBiotechnology is a groundbreaking text investigating the recent advances and future direction of nanobiotechnology. It will assist scientists and students in learning the fundamentals and cutting-edge nature of this new and emerging science. Focusing on materials and building blocks for nanotechnology, leading scientists from around the world share their knowledge and expertise in this authoritative volume. |
| bionanotechnology lessons from nature: Fluorescence Applications in Biotechnology and Life Sciences Ewa M. Goldys, 2009-08-24 A self-contained treatment of the latest fluorescence applications in biotechnology and the life sciences This book focuses specifically on the present applications of fluorescence in molecular and cellular dynamics, biological/medical imaging, proteomics, genomics, and flow cytometry. It raises awareness of the latest scientific approaches and technologies that may help resolve problems relevant for the industry and the community in areas such as public health, food safety, and environmental monitoring. Following an introductory chapter on the basics of fluorescence, the book covers: labeling of cells with fluorescent dyes; genetically encoded fluorescent proteins; nanoparticle fluorescence probes; quantitative analysis of fluorescent images; spectral imaging and unmixing; correlation of light with electron microscopy; fluorescence resonance energy transfer and applications; monitoring molecular dynamics in live cells using fluorescence photo-bleaching; time-resolved fluorescence in microscopy; fluorescence correlation spectroscopy; flow cytometry; fluorescence in diagnostic imaging; fluorescence in clinical diagnoses; immunochemical detection of analytes by using fluorescence; membrane organization; and probing the kinetics of ion pumps via voltage-sensitive fluorescent dyes. With its multidisciplinary approach and excellent balance of research and diagnostic topics, this book is an essential resource for postgraduate students and a broad range of scientists and researchers in biology, physics, chemistry, biotechnology, bioengineering, and medicine. |
| bionanotechnology lessons from nature: Soft Machines Richard A. L. Jones, 2004-08-26 Enthusiasts look forward to a time when tiny machines reassemble matter and process information with unparalleled power and precision. But is their vision realistic? Where is the science heading? As nanotechnology (a new technology that many believe will transform society in the next one hundred years) rises higher in the news agenda and popular consciousness, there is a real need for a book which discusses clearly the science on which this technology will be based. Whilst it is most easy to simply imagine these tiny machines as scaled-down versions of the macroscopic machines we are all familiar with, the way things behave on small scales is quite different to the way they behave on large scales. Engineering on the nanoscale will use very different principles to those we are used to in our everyday lives, and the materials used in nanotehnology will be soft and mutable, rather than hard and unyielding. Soft Machines explains in a lively and very accessible manner why the nanoworld is so different to the macro-world which we are all familiar with. Why does nature engineer things in the way it does, and how can we learn to use these unfamiliar principles to create valuable new materials and artefacts which will have a profound effect on medicine, electronics, energy and the environment in the twenty-first century. With a firmer understanding of the likely relationship between nanotechnology and nature itself, we can gain a much clearer notion of what dangers this powerful technology may potentially pose, as well as come to realise that nanotechnology will have more in common with biology than with conventional engineering. |
| bionanotechnology lessons from nature: The Machinery of Life David S. Goodsell, 2013-03-09 All living cells are made up of an extraordinary collection of tiny molecular machines, which orchestrate the millions of tasks needed for life. Cells build these machines for a variety of purposes: to digest food, to propel them to fertile feeding grounds or away from predators, to store the genetic blueprint, and to fight disease-causing invaders. The Machinery of Life is a journey into the sub-microscopic world of molecular machines. The reader is first introduced to the types of molecules built by cells: proteins, nucleic acids, lipids, and polysaccharides. In a series of distinctive illustrations, the reader is then guided through the interior world of cells, exploring the ways in which molecules work in concert to perform the processes of living. Finally, the book shows how vitamins, viruses, poisons, and drugs each have their effects on the molecules in our bodies. The author and illustrator, David Goodsell, has prepared a fascinating introduction to biochemistry for the nonspecialist. This book combines a clear text with an abundance of drawings and computer graphics that present the world of cells and their components in a new and unique way. |
| bionanotechnology lessons from nature: Biomolecular Electronics Nikolai Vsevolodov, 2012-12-06 The properties of materials depend on the nature of the macromolecules, small molecules and inorganic components and the interfaces and interactions between them. Polymer chemistry and physics, and inorganic phase structure and density are major factors that influence the performance of materials. In addition, molecular recognition, organic-inorganic interfaces and many other types of interactions among components are key issues in determining the properties of materials for a wide range of applications. Materials require ments are becoming more and more specialized to meet increasingly demand ing needs, from specific environmental stresses to high performance or biomedical applications such as matrices for controlled release tissue scaf folds. One approach to meet these performance criteria is to achieve better control over the tailoring of the components and their interactions that govern the material properties. This goal is driving a great deal of ongoing research in material science laboratories. In addition, control at the molecular level of interactions between these components is a key in many instances in order to reach this goal since traditional approaches used to glue, stitch or fasten parts together can no longer suffice at these new levels of manipulation to achieve higher performance. In many cases, molecular recognition and self-assembly must begin to drive these processes to achieve the levels of control desired. This same need for improved performance has driven Nature over millenia to attain higher and higher complexity. |
| bionanotechnology lessons from nature: Mirror-Image Asymmetry James P. Riehl, 2011-04-22 An overview of the importance and consequences of asymmetry from molecules to the macroscopic world As scientists have become more capable of probing the structure of three-dimensional objects at the molecular level, the need to understand the concept and the consequences of mirror-image asymmetry—chirality—has increased enormously. Written at an introductory level, Mirror-Image Asymmetry provides an overview of the importance and effects of asymmetry from the atomic and molecular world of physics and chemistry to the organisms and structures that we see and use in our everyday life. The reader will develop a broad appreciation of three-dimensional asymmetry from the microscopic molecular world to the macroscopic world of handedness, automobile driving, windmills, sports, and similar phenomena. The book features: An introduction to basic definitions and the nomenclature of asymmetric and dissymmetric molecules Up-to-date examples of the importance and consequences of asymmetry in modern drug applications, current theories of the origin of asymmetry in nature, and examples of molecular asymmetry in smell, taste, and insect communication Many illustrations, chemical structures, and photographs that enable the reader to connect the actual asymmetrical structures to the different phenomena that depend on structural asymmetry In the 150 years since Louis Pasteur discovered asymmetry in molecular structures, scientists have made great progress in understanding how interactions between chiral molecules influence biochemical processes. This knowledge is leading to very sophisticated asymmetric synthetic techniques that have greatly benefitted many research groups especially those in the pharmaceutical industry. This guide to the role of molecular and macroscopic chirality will inspire students and scientists in chemistry, biology, physics, and drug discovery. |
| bionanotechnology lessons from nature: Innovative Approaches for Nanobiotechnology in Healthcare Systems Amna, Touseef, Hassan, M. Shamshi, 2021-09-17 Innovative and fusion technologies have shown an incredible ability to improve various aspects of society, such as healthcare systems. Nanobiotechnology is one such technology that is being applied to medical equipment and treatment approaches. Many pharmaceutical and medical companies have begun to count on medical nanotechnology due to its abundant applications and practical uses. Innovative Approaches for Nanobiotechnology in Healthcare Systems is a pivotal reference source that provides insights into a comprehensive collection of novel techniques used for the development of safe drugs using the available resources for diverse deadly diseases. This book discusses the various platforms of nanobiotechnology that are utilized in various fields. It is expected that bionanosytems will play a crucial role in the treatment of human diseases and the improvement of existing healthcare systems. This book is ideal for scientists, biotechnologists, microbiologists, medical professionals, entrepreneurs, policymakers, researchers, academicians, and students. |
| bionanotechnology lessons from nature: Nanobiotechnology Christof M. Niemeyer, Chad A. Mirkin, 2006-03-06 Nanotechnology is the key technology of the 21st century. The possibility to exploit the structures and processes of biomolecules for novel functional materials, biosensors, bioelectronics and medical applications has created the rapidly growing field of nanobiotechnology. Designed as a broad survey of the field, this book combines contributions from bioorganic and bioinorganic chemistry, molecular biology, materials science and bioanalytics to fathom the full scope of current and future developments. It is divided into four main sections: * Interphase Systems * Protein-based Nanostructures * DNA-based Nanostructures * Nanoanalytics Each chapter describes in detail currently available methods and contains numerous references to the primary literature, making this the perfect field guide for chemists, biologists and materials scientists who want to explore the fascinating world of nanobiotechnology. |
| bionanotechnology lessons from nature: Designer Biology Ronald L. Sandler, John Basl, 2013-07-18 This book consists of thirteen chapters that address the ethical issues raised by technological intervention and design across a broad range of biological and ecological systems. Among the technologies addressed are geoengineering, human enhancement, sex selection, genetic modification, and synthetic biology. |
| bionanotechnology lessons from nature: Potentials and Trends in Biomimetics Arnim Gleich, Christian Pade, Ulrich Petschow, Eugen Pissarskoi, 2010-03-18 There is a wide consensus about the necessity of sustainable development. There is also a consensus that wide areas of our economy, industry, and technology and the life styles in industrialized countries are not susta- able. Science and technology are widely regarded as (main) causes for this situation. Issues in this context comprise the generally low resource ef- ciency, an increased and mostly undebated technological power, an - creased invasiveness of modern technologies, increasing amounts and - versity of pollutants, and high technological risks. On the other hand science and technology are also regarded as (main) solution providers towards more sustainability. Thus the question is which type of science and technology is rather a part of the problem, and which type is rather a part of the solution? ‘Learning from nature’ may give some orientation in this context. B- mimetics and bionics are widely regarded as being a part of the solution. |
| bionanotechnology lessons from nature: Models and Modeling Myint Swe Khine, Issa M. Saleh, 2011-03-01 The process of developing models, known as modeling, allows scientists to visualize difficult concepts, explain complex phenomena and clarify intricate theories. In recent years, science educators have greatly increased their use of modeling in teaching, especially real-time dynamic modeling, which is central to a scientific investigation. Modeling in science teaching is being used in an array of fields, everything from primary sciences to tertiary chemistry to college physics, and it is sure to play an increasing role in the future of education. Models and Modeling: Cognitive Tools for Scientific Enquiry is a comprehensive introduction to the use of models and modeling in science education. It identifies and describes many different modeling tools and presents recent applications of modeling as a cognitive tool for scientific enquiry. |
| bionanotechnology lessons from nature: Essential Computer Graphics Techniques for Modeling, Animating, and Rendering Biomolecules and Cells Giorgio Luciano, 2019-02-07 The book helps readers develop fundamental skills in the field of biomedical illustrations with a training approach based on step-by-step tutorials with a practical approach. Medical/scientific illustration mainly belongs to professionals in the art field or scientists trying to create artistic visualization. There is not a merging between the two, even if the demand is high. This leads to accurate scientific images with no appeal (or trivial mistakes), or appealing CSI-like images with huge scientific mistakes. This gives the fundamentals to the scientist so they can apply CG techniques that give a more scientific approach creating mistake-free images. Key Features This book provides a reference where none exist. Without overwhelming the reader with software details it teaches basic principles to give readers to fundamentals to create. Demonstrates professional artistic tools used by scientists to create better images for their work. Coverage of lighting and rendering geared specifically for scientific work that is toturoal based with a practical approach. Included are chapter tutorials, key terms and end of chapter references for Art and Scientific References for each chapter. |
| bionanotechnology lessons from nature: Encyclopedia of Agricultural, Food, and Biological Engineering Dennis R. Heldman, Carmen I. Moraru, 2010-10-21 Examining the role of engineering in delivery of quality consumer products, this expansive resource covers the development and design of procedures, equipment, and systems utilized in the production and conversion of raw materials into food and nonfood consumer goods. With nearly 2000 photographs, figures, tables, and equations including 128 color figures the book emphasizes and illustrates the various engineering processes associated with the production of materials with agricultural origin. With contributions from more than 350 experts and featuring more than 200 entries and 3600 references, this is the largest and most comprehensive guide on raw production technology. |
| bionanotechnology lessons from nature: Bioinspired and Green Synthesis of Nanostructures Mousumi Sen, Monalisa Mukherjee, 2023-07-05 BIOINSPIRED AND GREEN SYNTHESIS OF NANOSTRUCTURES This unique book details various ways to synthesize advanced nanostructures using green methods, explores the design and development of sustainable advanced nanostructures, and discusses the antimicrobial and antiviral applications. The future of the world depends on immediately investing our time and effort in advancing ideas on ways to restrict the use of hazardous chemicals, thereby arresting further environmental degradation. To achieve this goal, nanotechnology has been an indispensable arena that has extended its wings into every aspect of modernization. For example, green synthetic protocols are being extensively researched to inhibit the harmful effects of chemical residues and reduce chemical wastes. This involves the study of nanotechnology for artful engineering at the molecular level across multiple disciplines. In recent years, nanotechnology has ventured away from the confines of the laboratory and has been able to conquer new domains to help us live better lives. Bioinspired and Green Synthesis of Nanostructures focuses on the recent developments and novel applications of bioinspired and biomimetic nanostructures as functionally advanced biomolecules with huge prospects for research, development, and engineering industries. It provides detailed coverage of the chemistry of each major class of synthesis of bioinspired nanostructures and their multiple functionalities. In addition, it reviews the new research results currently being introduced and analyzes the various green synthetic approaches for developing nanostructures, their distinctive characteristics, and their applications. The book provides readers with an understanding of the recent data, as well as various strategies for designing and developing advanced nanostructures using a greener approach. Audience The core audience of this book include materials scientists, nanoscientists, nanotechnologists, chemical and biological engineers, biochemists and biotechnologists. Industry process engineers and scientists working in nanomaterial synthesis will find this book extremely valuable. |
| bionanotechnology lessons from nature: Introduction to Nanoscience and Nanotechnology Gabor L. Hornyak, H.F. Tibbals, Joydeep Dutta, John J. Moore, 2008-12-22 The maturation of nanotechnology has revealed it to be a unique and distinct discipline rather than a specialization within a larger field. Its textbook cannot afford to be a chemistry, physics, or engineering text focused on nano. It must be an integrated, multidisciplinary, and specifically nano textbook. The archetype of the modern nano textbook |
| bionanotechnology lessons from nature: Nanotechnology 101 John F. Mongillo, 2007-10-30 What should the average person know about science? Because science is so central to life in the 21st century, science educators and other leaders of the scientific community believe that it is essential that everyone understand the basic concepts of the most vital and far-reaching disciplines. Nanotechnology 101 does exactly that. This accessible volume provides readers — whether students new to the field or just interested members of the lay public — with the essential ideas of the new science of nanotechnology using a minimum of jargon and mathematics. Concepts are introduced in a progressive order so that more complicted ideas build on simpler ones, and each is discussed in small, bite-sized segments so that they can be more easily understood. Nanotechnology 101 provides contemporary topics about the infusion of nanotechnology in the areas of the environment, food safety, medicine and healthcare, consumer goods, agriculture, homeland security, and energy supply. With a bibliography, sidebars, and interviews with leading figures in the field, Nanotechnology 101 provides the perfect starting point for anyone wishing to understand this burgeoning science. |
| bionanotechnology lessons from nature: Nanotechnology Ben Rogers, Jesse Adams, Sumita Pennathur, 2013-03-20 Winner of an Outstanding Academic Title Award from CHOICE MagazineTransistors using one electron at a time. Seemingly transparent sunscreens made with titanium dioxide particles that block harmful UV rays. Nanometer-sized specks of gold that change color to red and melt at 750 C instead of 1,064 C. Nanotechnology finds the unique properties of thin |
| bionanotechnology lessons from nature: Genesis Redux Jessica Riskin, 2010-02-15 Since antiquity, philosophers and engineers have tried to take life’s measure by reproducing it. Aiming to reenact Creation, at least in part, these experimenters have hoped to understand the links between body and spirit, matter and mind, mechanism and consciousness. Genesis Redux examines moments from this centuries-long experimental tradition: efforts to simulate life in machinery, to synthesize life out of material parts, and to understand living beings by comparison with inanimate mechanisms. Jessica Riskin collects seventeen essays from distinguished scholars in several fields. These studies offer an unexpected and far-reaching result: attempts to create artificial life have rarely been driven by an impulse to reduce life and mind to machinery. On the contrary, designers of synthetic creatures have generally assumed a role for something nonmechanical. The history of artificial life is thus also a history of theories of soul and intellect. Taking a historical approach to a modern quandary, Genesis Redux is essential reading for historians and philosophers of science and technology, scientists and engineers working in artificial life and intelligence, and anyone engaged in evaluating these world-changing projects. |
| bionanotechnology lessons from nature: Tomorrow's Chemistry Today Bruno Pignataro, 2009-09-22 Providing a glimpse into the future, the young scientists contributing here were considered to be the most important for tomorrow's chemistry and materials science. They present the state of the art in their particular fields of research, with topics ranging from new synthetic pathways and nanotechnology to green chemistry. Of major interest to organic chemists, materials scientists and biochemists. |
| bionanotechnology lessons from nature: The Limits of Fabrication Nathan Brown, 2017-01-02 Poetry, or poiēsis, has long been understood as a practice of making. But how are experiments in the making of poetic forms related to formal making in science and engineering? The Limits of Fabrication takes up this question in the context of recent developments in nanoscale materials science, investigating concepts and ideologies of form at stake in new approaches to material construction. Tracing the direct pertinence of fields crucial to the new materials science (nanotechnology, biotechnology, crystallography, and geodesic design) in the work of Shanxing Wang, Caroline Bergvall, Christian Bök, and Ronald Johnson back to the midcentury development of Charles Olson’s “objectist” poetics, Nathan Brown carves out a tradition of constructivist, nonorganic poetics that has developed in conversation with science and engineering. While proposing a new approach to the relation of technē (craft, skill) and poiēsis (making, forming), this book also intervenes in philosophical debates concerning the concept of the object, the distinction between organic and inorganic matter, theories of self-organization, and the relation between “design” and “nature.” Engaging with Heidegger, Agamben, Whitehead, Stiegler, and Nancy, Brown shows that materials science and materialist poetics offer crucial resources for thinking through the direction of contemporary materialist philosophy. |
| bionanotechnology lessons from nature: Harnessing Nanoscale Surface Interactions , 2019-11-24 Harnessing Nanoscale Surface Interactions: Contemporary Synthesis, Applications and Theory provides coverage of contemporary theoretical and experimental approaches to understanding the interactions of molecules with nanomaterial surfaces and how to utilize these processes for improved synthesis and application of materials. The book reviews recently developed theoretical techniques to explore bonding interactions in nanoclusters and small molecules, along with modern molecular dynamics approaches for investigation adsorption of large molecules on nanomaterials. Novel experimental approaches are described that provide improved control of the synthesis of metal nanoparticles and measurement of their absorption properties. The potential for nanomaterials to address a range of environmental problems is also demonstrated by a selection of specific applications. Chapters discuss experimental synthesis approaches, experimental analysis and applications, and theoretical approaches for harnessing nanoscale surface interactions. - Includes exploration of the latest theoretical techniques, including regional density functional theory and molecular dynamics simulations - Addresses nanoscale interfaces and how they relate to the toxicity of nanomaterials, crucial for potential diagnosis and medical applications |
| bionanotechnology lessons from nature: Microbial Nanotechnology Ankal Ahluwalia, 2025-01-03 Microbial Nanotechnology: The Future of Science explores the cutting-edge field of nanotechnology, focusing on the use of microorganisms to produce nanoparticles. We discuss how this technology enhances the physical, chemical, and mechanical properties of materials, offering significant benefits for green biotechnology and other emerging fields. Our book covers the development and manipulation of organic and inorganic matter, highlighting the promise of designing nanomaterials. We address the environmental sustainability challenges of non-manufacturing processes and emphasize the potential of combining green chemistry with white biotechnology for more sustainable industrial practices. We provide a detailed account of the biogenic synthesis of nanomaterials using different microorganisms. Each chapter focuses on the biosynthesis of metals, metal oxides, and nanosized materials by bacteria and fungi. This comprehensive text delivers clear, well-researched information on microbial nanotechnology. Designed for a wide audience, this book serves as an invaluable resource for anyone interested in the future of science and technology. |
| bionanotechnology lessons from nature: Living Technology Armin Grunwald, 2021-06-16 The boundaries between inanimate technology and the realm of the living become increasingly blurred. Deeper and deeper technological interventions into living organisms are possible, covering the entire spectrum of life from bacteria to humans. Simultaneously, digitalization and artificial intelligence (AI) enable increasingly autonomous technologies. Inanimate technologies such as robots begin to show characteristics of life. Contested issues pop up, such as the dignity of life, the enhancement of animals for human purposes, the creation of designer babies, and the granting of robot rights. The book addresses the understanding of the ongoing dissolution of the life/technology borders, the provision of ethical guidance for navigating research and innovation responsibly, and the philosophical reflection on the meaning of the current shifts. It offers three specific perspectives for understanding the challenges and providing orientation. First, the dissolution of the boundaries between technology and life is analyzed and reflected from both sides. Second, the search for orientation is not restricted to ethics but also involves philosophy of technology and of nature, as well as anthropology. Finally, instead of restricting the analysis to specific areas of life, e.g., bacteria or animals, the book presents a comprehensive look at the entire spectrum of living organisms—bacteria and viruses, plants, animals and humans—and robots as possible early forms of emerging technical life. |
| bionanotechnology lessons from nature: Photochemistry and Photophysics Vincenzo Balzani, Paola Ceroni, Alberto Juris, 2024-11-19 Connects principles, processes, and experimental techniques with current research in the continuously expanding field of photochemistry and photophysics Photochemistry and Photophysics covers a wide spectrum of concepts in photochemistry and photophysics, introducing principles, processes, and experimental techniques, with a wealth of examples of current applications and research spanning natural photosynthesis, photomedicine, photochromism, luminescent sensors, energy conversion and storage, and sustainability issues. In this Second Edition, several chapters have been revised considerably and others have been almost entirely rewritten. A number of schemes and figures have been added, and the reference list at the end of each chapter has been extended and updated. Clearly structured, the first part of the text discusses the formation, properties, and reactivity of excited states of inorganic and organic molecules and supramolecular species, and the second part focuses on photochemical and photophysical processes in nature and artificial systems. Readers will learn how photochemical and photophysical processes can be exploited for novel, unusual, and unexpected applications. Written by world-renowned experts in the field, Photochemistry and Photophysics includes information on: Formation, electronic structure, properties, chemical reactivity, and radiative and nonradiative decay of electronically excited states Fundamental concepts and theoretical approaches concerning energy transfer and electron transfer Peculiar light absorption/emission spectra and the photochemical properties of the various families of organic molecules and metal complexes Equipment, techniques, procedures, and reference data concerning photochemical and photophysical experiments, including warnings to avoid mistakes and misinterpretations Relationships between photochemical, photophysical, and electrochemical properties of molecules that enable interconversion between light and chemical energy With an appropriate mix of introductory, intermediate, and advanced content, this is an ideal textbook resource for related undergraduate and postgraduate courses. The text is also valuable for scientists already active in photochemical and photophysical research who will find helpful suggestions to undertake novel scientific projects. |
| bionanotechnology lessons from nature: Nanocomposite Structures and Dispersions Ignac Capek, 2019-07-20 Nanocomposite Structures and Dispersions deals with the preparation of gelled, branched and crosslinked nanostructured polymers in the solution free radical polymerization and controlled/living radical polymerization and polymer and composite nanoparticles and nanostructures in disperse systems, the kinetics of direct and inverse disperse polymerizations (microemulsion, miniemulsion, emulsion, dispersion and suspension polymerization), the bottom-up approach building of functionalized nanoparticles, modelling of radical microemulsion polymerization, the characterization of traditional and non-traditional polymer dispersions, the collective properties of nanomaterials and their (bio)applications.This book is designed to bridge that gap and offers several unique features. First, it is written as an introduction to and survey of nanomaterials with a careful balance between basics and advanced topics. Thus, it is suitable for both beginners and experts, including graduate and upper-level undergraduate students. Second, it strives to balance the colloidal aspects of nanomaterials with physical principles. Third, the book highlights nanomaterial based architectures including composite or hybrid conjugates rather than only isolated nanoparticles. A number of ligands have been utilized to biodecorate the polymer and composite nanocarriers. Finally, the book provides an in depth discussion of important examples of reaction mechanisms of bottom-up building of functionalized nanoparticles, or potential applications of nanoarchitectures, ranging from physical to chemical and biological systems. - Free radical (controlled) polymerization, branching, crosslinking and gelling - Kinetics and mechanism of polymer nanoparticles formation - Modelling of radical polymerization in disperse systems - Polymer, composite and metal nanoparticles, nanostructures and nanomaterials - Smart nanostructures, biodecorated particles, nanocarriers and therapeutics |
| bionanotechnology lessons from nature: Biomedical and Clinical Engineering for Healthcare Advancement Sriraam, N., 2019-07-05 The rapid development of new technologies has created a lasting impact in the healthcare sector during the past decades. Due to this influence, potential clinical problems have decreased while the quality of healthcare delivery and overall user friendliness has increased and contributed to cost-effective healthcare systems. Biomedical and Clinical Engineering for Healthcare Advancement is an essential reference source that discusses growth in healthcare applications driven by the adoption of new technologies, as well as the expansion of machine learning algorithms for clinical decision making. It focuses on combining vision, motion, data acquisition, and automated control to accelerate the development of affordable and portable medical devices. Featuring research on topics such as artificial intelligence, drug delivery, and retinal imaging, this book is ideally designed for healthcare professionals, biomedical engineers, biomedical professionals, clinicians, hospital directors, physicians, medical students, and clinical researchers. |
| bionanotechnology lessons from nature: Low-Dimensional and Nanostructured Materials and Devices Hilmi Ünlü, Norman J. M. Horing, Jaroslaw Dabrowski, 2015-12-01 This book focuses on the fundamental phenomena at nanoscale. It covers synthesis, properties, characterization and computer modelling of nanomaterials, nanotechnologies, bionanotechnology, involving nanodevices. Further topics are imaging, measuring, modeling and manipulating of low dimensional matter at nanoscale. The topics covered in the book are of vital importance in a wide range of modern and emerging technologies employed or to be employed in most industries, communication, healthcare, energy, conservation , biology, medical science, food, environment, and education, and consequently have great impact on our society. |
| bionanotechnology lessons from nature: Medical Nanotechnology and Nanomedicine Harry F. Tibbals, 2017-12-19 Considering the fluid nature of nano breakthroughs—and the delicate balance between benefits and consequences as they apply to medicine—readers at all levels require a practical, understandable base of information about these developments to take greatest advantage of them. Medical Nanotechnology and Nanomedicine meets that need by introducing non-experts to nanomedicine and its evolving organizational infrastructure. This practical reference investigates the impact of nanotechnology on applications in medicine and biomedical sciences, and the broader societal and economic effects. Eschewing technological details, it focuses on enhancing awareness of the business, regulatory, and administrative aspects of medical applications. It gives readers a critical, balanced, and realistic evaluation of existing nanomedicine developments and future prospects—an ideal foundation upon which to plan and make decisions. Covers the use of nanotechnology in medical applications including imaging, diagnosis and monitoring, drug delivery systems, surgery, tissue regeneration, and prosthetics Part of the Perspectives in Nanotechnology series—which contains broader coverage of the societal implications of nanotechnology—this book can be used as a standalone reference. Organized by historical perspective, current status, and future prospects, this powerful book: Explores background, definitions and terms, and recent trends and forces in nanomedicine Surveys the landscape of nanomedicine in government, academia, and the private sector Reviews projected future directions, capabilities, sustainability, and equity of nanomedicine, and choices to be made regarding its use Includes graphical illustrations, references, and keywords to reinforce concepts and aid further research In its assessment of alternative and sometimes conflicting concepts proposed for the application of nanotechnology to medicine, this book surveys major initiatives and the work of leading labs and innovators. It uses informative examples and case summaries to illustrate proven accomplishments and imagined possibilities in research and development. |
| bionanotechnology lessons from nature: Biotechnology for Beginners Reinhard Renneberg, 2023-01-16 Biotechnology for Beginners, Third Edition presents the latest developments in the evolving field of biotechnology which has grown to such an extent over the past few years that increasing numbers of professional's work in areas that are directly impacted by the science. This book offers an exciting and colorful overview of biotechnology for professionals and students in a wide array of the life sciences, including genetics, immunology, biochemistry, agronomy and animal science. This book will also appeals to lay readers who do not have a scientific background but are interested in an entertaining and informative introduction to the key aspects of biotechnology. Authors Renneberg and Loroch discuss the opportunities and risks of individual technologies and provide historical data in easy-to-reference boxes, highlighting key topics. The book covers all major aspects of the field, from food biotechnology to enzymes, genetic engineering, viruses, antibodies, and vaccines, to environmental biotechnology, transgenic animals, analytical biotechnology, and the human genome. - Covers the whole of biotechnology - Presents an extremely accessible style, including lavish and humorous illustrations throughout - Includes new chapters on CRISPR cas-9, COVID-19, the biotechnology of cancer, and more |
| bionanotechnology lessons from nature: Innovations in Swarm Intelligence Chee Peng Lim, Satchidananda Dehuri, 2009-10-04 Over the past two decades, swarm intelligence has emerged as a powerful approach to solving optimization as well as other complex problems. Swarm intelligence models are inspired by social behaviours of simple agents interacting among themselves as well as with the environment, e.g., flocking of birds, schooling of fish, foraging of bees and ants. The collective behaviours that emerge out of the interactions at the colony level are useful in achieving complex goals. The main aim of this research book is to present a sample of recent innovations and advances in techniques and applications of swarm intelligence. Among the topics covered in this book include: particle swarm optimization and hybrid methods, ant colony optimization and hybrid methods, bee colony optimization, glowworm swarm optimization, and complex social swarms, application of various swarm intelligence models to operational planning of energy plants, modeling and control of nanorobots, classification of documents, identification of disease biomarkers, and prediction of gene signals. The book is directed to researchers, practicing professionals, and undergraduate as well as graduate students of all disciplines who are interested in enhancing their knowledge in techniques and applications of swarm intelligence. |
| bionanotechnology lessons from nature: Short Views on Insect Genomics and Proteomics Chandrasekar Raman, Marian R. Goldsmith, Tolulope A. Agunbiade, 2015-12-10 Entomology is a super science, embracing interdisciplinary approaches in genomics, proteomics, and interdependent fields of biochemistry, physiology, molecular entomology, and biotechnology. An urgent need to manage available resources for the benefit of the planet and humankind has led to remarkable progress since publication of the fruit fly genome in 2000. “Short Views on Insect Genomics and Proteomics” presents multiple perspectives of recognized experts from around the world in genomics, bioinformatics, molecular biology, biochemistry, physiology, and immunology, emphasizing fast-moving areas of current research on insects and other arthropods. Concise, accessible, topical reviews include body lice and white fly genome projects, aphid phenotypic plasticity, insect regulatory genomics, the complex tick sialome, protein expression systems, therapeutic potential of insect antimicrobial peptides, nanoparticle insecticides, and novel uses for recombinant and synthetic spider silks. |
| bionanotechnology lessons from nature: Viral Nanotechnology Yury Khudyakov, Paul Pumpens, 2015-06-23 Viral Nanotechnology presents an up-to-date overview of the rapidly developing field of viral nanotechnology in the areas of immunology, virology, microbiology, chemistry, physics, and mathematical modeling. Its chapters are by leading researchers and practitioners, making it both a comprehensive and indispensable resource for study and research.Th |
| bionanotechnology lessons from nature: Queering the Non/Human Myra J. Hird, 2016-05-23 What might it mean to queer the Human? By extension, how is the Human employed within queer theory? These questions invite a reconsideration of the way we think about queer theory, the category of the Human and the act of queering itself. This interdisciplinary volume of essays gathers together essays by international pioneering scholars in queer theory, critical theory, cultural studies and science studies who have written on topics as diverse as Christ, the Antichrist, dogs, starfish, werewolves, vampires, murderous dolls, cartoons, corpses, bacteria, nanoengineering, biomesis, the incest taboo, the death drive and the 'queer' in queer theory. Contributors include Robert Azzarello, Karen Barad, Phillip A. Bernhardt-House, Jeffrey Jerome Cohen, Claire Colebrook, Noreen Giffney, Judith Halberstam, Donna J. Haraway, Eva Hayward, Myra J. Hird, Karalyn Kendall, Vicki Kirby, Alice Kuzniar, Patricia MacCormack, Robert Mills, Luciana Parisi and Erin Runions. |
| bionanotechnology lessons from nature: Using the Biological Literature Diane Schmidt, 2014-04-14 The biological sciences cover a broad array of literature types, from younger fields like molecular biology with its reliance on recent journal articles, genomic databases, and protocol manuals to classic fields such as taxonomy with its scattered literature found in monographs and journals from the past three centuries. Using the Biological Litera |
| bionanotechnology lessons from nature: Nanotherapeutics for Infectious Diseases Iris Luz Batalha, 2025-04-15 The study of materials at the nanoscale, characterized by their exceptional physicochemical properties, and their interactions with biological systems have greatly impacted the healthcare sector and the pharmaceutical industry. This book is more than just a compilation of nanomaterials used for the treatment and prevention of infectious diseases. It starts by tracing the historical trajectory of the nanomedicine field, charting its evolution to the present day. This is followed by two additional introductory chapters, one offering an overview of clinically approved nanoformulations for human use and another contextualizing the current landscape of infectious diseases. Subsequent chapters delve into the utilization of nanotherapeutics in the treatment and prevention of infections caused by various pathogens (such as viruses, bacteria, parasites, and fungi). The book also features focused chapters on COVID-19 and malaria, illustrating how nanotherapeutics contribute to the clinical management of these prevalent global health priorities. |
| bionanotechnology lessons from nature: Advances in Plant Biopesticides Dwijendra Singh, 2014-11-13 The ‘Advances in Plant Biopesticides’ comprises 19 chapters on different important issues of developing biopesticides from promising botanicals and its phytomolecules based on the research reviews in the area concern. The book is written by reputed scientists and professors of both developed and developing countries namely Australia, Canada, Czech Republic, Egypt, Greece, India, Kenya, Thailand, Turkey, United Kingdom, and USA represented by almost 53 contributors. The book is organized and presented in such a form that the readers can acquire and enhance their knowledge in plant biopesticide bioresources, its application in different areas to manage pests and diseases of field crops, stored products with status of exploring in Africa, non-target effects on beneficial arthropods, control of arthropods of veterinary and vectors of communicable diseases, efficacy in controlling honeybee mite pests, prospect of applying new tools to enhance the efficacy of plant biopesticides through use of nanotechnology, most important plant derived active principle as source of biopesticides, possible mode of action of phytochemicals against arthropods, limitation, production status, consumption, formulation, registration and quality regulation of plant biopesticides and have been cited by important scientific references. Most importantly, the book also highlights a unique example for developing biopesticides based on the research on Annonaceae as potential source of plant biopesticide, exploiting phytochemicals for developing green technology for sustainable crop protection strategies to withstand climate change with example in Africa, and overview in developing insect resistance to plant biopesticides. Most of the chapter contributing authors are internationally reputed researchers and possess experiences of more than three to four decades in the area of plant biopesticides. The contributing and corresponding authors of the book - Advances in Plant Biopesticides proposed and identified by the editor (Dwijendra Singh) include distinguished professors and reputed scientists from different continents of the world namely MB Isman (Canada), Nadia Z Dimetry (Egypt), Zeaur R Khan (Kenya), John A Pickett (UK), Gadi VP Reddy (USA), S Gopalakrishnan (India), Anand Prakash (India), Chirantan Chattopadyay (India), Christos G Athanassiou (Greece), Philip C. Stevenson (UK), S Raguraman (India), S Ghosh (India), Mir S Mulla (USA), Apiwat Tawatsin (Thailand), Dwijendra Singh (India), K Sahayaraj (India), Suresh Walia (India), T Shivanandappa (India), Roman Pavela (Czeck Republic), Errol Hasan (Australia), Ayhan Gokce (Turkey), SK Raza (India), and their colleague co-contributors. This book would certainly provide the updated knowledge to global readers on plant biopesticides as one of the important reference source and would stimulate to present and future researchers, scientists, student, teachers, entrepreneurs, and government & non-government policy makers interested to develop new & novel environmentally safe plant biopesticides world over. |
| bionanotechnology lessons from nature: Surface Design: Applications in Bioscience and Nanotechnology Renate Förch, Holger Schönherr, A. Tobias A. Jenkins, 2009-08-06 This carefully selected balance of tutorial-like review chapters and advanced research covers hot topics in the field of biointerfaces, biosensing, nanoparticles at interfaces, and functionalized quantum dots. It also includes chapters arising from non-published work with topics such as surface design and their applications, as well as new developments in analytical tools for materials science and life science. Based on the very close and complementary collaboration of three distinguished leading research groups, this book highlights recent advances in the field ranging from synthesis and fabrication of organic and polymeric materials, surface and interface science to advanced analytical methods. It thus addresses new concepts in micro- and nanofabrication, bio-nanotechnology, biosensors and the necessary compositional and structural analysis. Particular attention is paid throughout to complex hierarchical interface architectures and possible applications of the chemical and physical methodologies discussed, covering bio-diagnostics, novel biosensors and adhesion science. With its unique combination of expertise from chemistry, physics, biology, surface science and engineering, this is a valuable companion for students, practitioners and established experts. |
| bionanotechnology lessons from nature: Studies in Natural Products Chemistry Atta-ur Rahman, 2017-02-17 Studies in Natural Products Chemistry covers the synthesis, testing, and recording of the medicinal properties of natural products, providing cutting-edge accounts of the fascinating developments in the isolation, structure elucidation, synthesis, biosynthesis, and pharmacology of a diverse array of bioactive natural products. Natural products in the plant and animal kingdom offer a huge diversity of chemical structures that are the result of biosynthetic processes that have been modulated over the millennia through genetic effects. With the rapid developments in spectroscopic techniques and accompanying advances in high-throughput screening techniques, it has become possible to isolate and then rapidly determine the structures and biological activity of natural products, thus opening up exciting opportunities in the field of new drug development in the pharmaceutical industry. - Focuses on the chemistry of bioactive natural products - Contains contributions by leading authorities in the field - Presents sources of new pharmacophores |
| bionanotechnology lessons from nature: Letters to a Young Chemist Abhik Ghosh, 2011-04-04 What’s it really like to be a chemist? Leading chemists share what they do, how they do it, and why they love it. “Letters to a young ...” has been a much-loved way for professionals in a field to convey their enthusiasm and the realities of what they do to the next generation. Now, Letters to a Young Chemist does the same for the chemical sciences. Written with a humorous touch by some of today’s leading chemists, this book presents missives to “Angela,” a fictional undergraduate considering a career in chemistry. The different chapters offer a mix of fundamental principles, contemporary issues, and challenges for the future. Marye Anne Fox, Chancellor of the University of California San Diego, talks about learning to do research and modern physical organic chemistry. Brothers Jonathan and Daniel Sessler explain the chemistry of anesthetics that make modern surgery possible while Elizabeth Nolan talks about biological imaging. Terry Collins talks about green chemistry, a more sustainable way of doing chemistry, while several authors including Carl Wamser, Harry Gray, John Magyar, and Penny Brothers discuss the crucial contributions that chemists can make in meeting global energy needs. Letters to a Young Chemist gives students and professionals alike a unique window into the real world of chemistry. Entertaining, informative, and full of honest and inspiring advice, it serves as a helpful guide throughout your education and career. “The different chapters describe both the wonders of the molecular world and the practical benefits afforded by chemistry ... and if any girl out there thinks that chemistry is a man’s world, this book should be a good antidote.” —Marye Anne Fox, Chancellor of the University of California, San Diego, and winner of the 2009 US National Medal of Science “Letters to a Young Chemist offers significant ammunition for motivating young people to consider chemistry as a career. ... This book should also be required reading for all faculty members who teach chemistry in high schools, colleges, and universities.” —Stephen J. Lippard, Arthur Amos Noyes Professor of Chemistry, Massachusetts Institute of Technology, and winner of the 2006 US National Medal of Science |
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