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| nanobiotechnology protocols: NanoBiotechnology Protocols Sandra J Rosenthal, David W Wright, 2008-02-04 Hands-on experts in nanomaterial synthesis and application describe in detail the key experimental techniques currently employed in novel materials synthesis, dynamic cellular imaging, and biological assays. The author's emphasize diverse strategies to synthesize and functionalize the use of nanoparticles for biological applications. Additional chapters focus on the use of biological components (peptides, antibodies, and DNA) to synthesize and organize nanoparticles to be used a building block in larger assemblies. These new materials make it possible to image cellular processes for longer durations, leading to high throughput cellular-based screens for drug discovery, drug delivery, and diagnostic applications. Highlights include overview chapters on quantum dots and DNA nanotechnology, and cutting-edge techniques in the emerging nanobiotachnology arena. |
| nanobiotechnology protocols: Nano Biotechnology Protocols, Humana Press, 2005 Sandra J Rosenthal, Sandra J. Rosenthal & David W. Wright, 2005-04-30 Increasingly, researchers find themselves involved in discipline-spanning science that a decade ago was simply inconceivable. Nowhere is this more apparent than at the cusp of two rapidly developing fields, nanoscience and biotechnology. The resulting hybrid of nanobiotechnology holds the promise of providing revolutionary insight into aspects of biology ranging from fundamental questions of receptor function to drug discovery and personal medicine. As with many fields fraught with increasing hyperbole, it is essential that the underlying approaches be based on solid, reproducible methods. It is the goal of NanoBiotechnology Protocols to provide novice and experienced researchers alike a cross-section of the methods employed in significant frontier areas of nanobiotechnology. In a rapidly developing field such as biotechnology, it is difficult to predict at what mature endpoint a field will arrive. Today, nanobiotechnology is making significant advances in three broad areas: novel materials synthesis, dynamic cellular imaging, and biological assays. As a testament to the true nature of interdisciplinary research involved in nanobiotechnology, each of these areas is being driven by rapid advances in the others: New materials are enabling the imaging of cellular processes for longer durations, leading to highthroughput cellular-based screens for drug discovery, drug delivery, and diagnostic applications. NanoBiotechnology Protocols addresses methods in each of these areas. Two overview chapters are provided for perspective for those beginning investigations in nanobiotechnology. Throughout this volume, there is a deliberate emphasis on the use of nanoparticles. As functionalized materials, they represent one of the fundamental enabling nanoscale components for these technologies. Consequently, many of the protocols highlight diverse strategies to synthesize and functionalize these probes for biological applications. Other chapters focus on the use of biological components (peptides, antibodies, and DNA) to synthesize and organize nanoparticles to be used as building blocks in larger assemblies. The methods described herein are by no means complete; vi Preface nor are they necessarily intended to be. Every day seems to produce new applications of nanotechnology to biological systems. It is our hope that this volume provides a detailed, hands-on perspective of nanobiotechnology to encourage scientists working in interdisciplinary fields to recognize the utility of this emerging technology. Sandra J. Rosenthal David W. Wright |
| nanobiotechnology protocols: 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. |
| nanobiotechnology protocols: The Nanobiotechnology Handbook Yubing Xie, 2012-11-16 A thorough overview of nanobiotechnology and its place in advances in applied science and engineering, The Nanobiotechnology Handbook combines contributions from physics, bioorganic and bioinorganic chemistry, molecular and cellular biology, materials science, and medicine as well as from mechanical, electrical, chemical, and biomedical engineering to address the full scope of current and future developments. World-class experts discuss the role of nanobiotechnology in bioanalysis, biomolecular and biomedical nanotechnology, biosensors, biocatalysis and biofuel, and education and workforce development. It includes a companion CD that contains all figures in the book. The book begins with discussions of biomimetic nanotechnology, including a comprehensive overview of DNA nanostructure and DNA-inspired nanotechnology, aptamer-functionalized nanomaterials as artificial antibodies, artificial enzymes, molecular motors, and RNA structures and RNA-inspired nanotechnology. It shows how nanotechnology can be inspired by nature as well as adverse biological events in diagnostic and therapeutic development. From there, the chapters cover major important and widely used nanofabrication techniques, applications of nanotechnology for bioprocessing followed by coverage of the applications of atomic force microscopy (AFM), optical tweezers and nanofluidics as well as other nanotechnology-enabled biomolecular and cellular manipulation and detection. Focusing on major research trends, the book highlights the importance of nanobiotechnology to a range of medical applications such as stem cell technology and tissue engineering, drug development and delivery, imaging, diagnostics, and therapeutics. And with coverage of topics such as nanotoxicity, responsible nanotechnology, and educational and workforce development, it provides a unique overview and perspective of nanobiotechnology impacts from a researcher’s, entrepreneur’s, economist’s and educator’s point of view. It provides a resource for current applications and future development of nanobiotechnology. |
| nanobiotechnology protocols: Human Retrovirus Protocols Tuofu Zhu, 2008-02-04 A cutting-edge collection of basic and state-of-the-art methods optimized for investigating the molecular biology of this class of retrovirus. These readily reproducible techniques range from methods for the isolation and detection of human retroviruses to cutting-edge methods for exploring the interplay between the viruses and the host. Here, the researcher will find up-to-date techniques for the isolation and propagation of HIV, HTLV, and foamy virus from a variety of sources. There are also assays for determining the cell tropism of HIV-1, the coreceptor usage of HIV-1, and human gene expression with HIV-1 infection by microarrays, as well as for phenotyping HIV-1 infected monocytes and examining their fitness. Highlights include the detection and quantification of HIV-1 in resting CD4+, a new cloning system for making recombinent virus, cDNA microarrays, and the determination of genetic polymorphisms in two recently identified HIV-1 co-factors that are critical for HIV-1 infection. |
| nanobiotechnology protocols: Nanobiotechnology Rajesh Singh Tomar, Anurag Jyoti, Shuchi Kaushik, 2020-03-19 This new book, Nanobiotechnology: Concepts and Applications in Health, Agriculture, and Environment, presents a broad conceptual overview regarding the synthesis, applications, and toxicological aspects of nanobiotechnology. It focuses on the entrance into and interaction of nanomaterials in the human body, which has generated intense scientific curiosity, attracting much attention as well as increasing concern from the nanomaterial-based industries and academia across the world. This book looks at the scientific aspects of nanomaterials used in many applications of biosciences, taking an interdisciplinary approach that encompasses medicine, biology, pharmacy, physics, chemistry, engineering, nanotechnology, and materials science. The volume covers the basics of nanosciences and nanotechnology; different schemes and routes of synthesis; and various biological applications, including sensing, medicine, drug delivery systems, and remediation. Further, special chapters will be devoted to nanotoxicology and the developing risk factors associated with nanosized particles during use along with the ethical issues related to nanobiotechnology. |
| nanobiotechnology protocols: Nanobiotechnology for Sustainable Food Management Eduardo Alberto López-Maldonado, Amber R. Solangi, Fabio Granados-Chinchilla, 2024-10-25 Among the most novel and ever-growing approaches to improving the food industry is nanobiotechnology. In this book, the prospective role of nanobiotechnology in food which includes quality control and safety through nanosensors and biosensors, targeted delivery of nutrients, controlled release of nutrients, proteins, antioxidants, and flavors through encapsulation and enzymatic reactions for food fortification of fat-soluble compounds is discussed. Along the chapters of this book, nanobiotechnological techniques are addressed in detail with specific emphasis on food science applications. Features: Discusses nanobiotechnology in food for quality control and safety Covers food processing and packaging for food safety Explores the positive role of nanomaterials towards the sustainability of food Provides efficient, real, and sustainable solutions to pertinent global problems Includes case studies and research directions of the nanobiotechnology This book is aimed at researchers and graduate students in nanotechnology and food engineering. |
| nanobiotechnology protocols: 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. |
| nanobiotechnology protocols: Receptor Binding Techniques Anthony P. Davenport, 2008-02-02 A comprehensive collection of readily reproducible methods for studying receptors in silico, in vitro, and in vivo. These cutting-edge techniques cover mining from curated databases, identifying novel receptors by high throughput screening, molecular methods to identify mRNA encoding receptors, radioligand binding assays and their analysis, quantitative autoradiography, and imaging receptors by positron emission tomography (PET). Highlights include phenotypic characterization of receptors in knockout mice, imaging receptors using green fluorescent protein and fluorescent resonance energy transfer, and quantitative analysis of receptor mRNA by TaqMan PCR. These book equips the researcher with techniques for exploring the unprecedented number of new receptor systems now emerging and the so-called orphan receptors whose activating ligand has not been identified. |
| nanobiotechnology protocols: Nanobiotechnology Protocols Rosenthal, 2007-09 |
| nanobiotechnology protocols: Nanobiotechnology Tridib Kumar Bhowmick, Kaylan Gayen, Sunil K. Maity, 2024-05-30 This book covers topics related to drug delivery, biomaterials, drug design, formulation development, nanoscience, and nanotechnology. It describes the fundamental concepts in nanotechnology and their different applications in biotechnology to solve engineering challenges and generate new areas of technological development. Nanobiotechnology: Applications of Nanomaterials in Biotechnology, Medicine, and Healthcare covers vast application areas that include medical science, material science, pharmaceutical science, and environmental science. Section 1 presents recent research updates on the different nanomaterials, which are promising in different medical and biotechnological applications. Applications of nanomaterials as bone replacement orthopedic implants have revolutionized the treatment of orthopedic surgery. Nanostructured polymeric materials have gained immense research attention as therapeutic carriers for the precise delivery of drugs at targeted sites. Nanocellulose is recognized as a promising green nanomaterial due to its renewability and abundance in nature. Scientific topics on the most recent scientific and technological advances and applications of different nanostructured materials are presented in this section. Section 2 focuses on the novel synthesis methods that are used extensively and are promising for large-scale production of inorganic and nanostructured materials. Section 3 covers the applications of nanotools in the treatment of different diseases, including cancers and genetic diseases. The increasing use of nanotechnology will bring changes in the manufacturing processes of nanomaterials. The applications of nanomaterials in the field of medical imaging and molecular detection are presented in section 4. This book will be useful for students, researchers, scientists, academicians, and industrial manufacturers to understand the importance and applicability of nanomaterials in the field of biotechnology and medical science. |
| nanobiotechnology protocols: Nanobiotechnology Sougata Ghosh, Thomas J Webster, 2021-05-20 Nanobiotechnology: Microbes and Plant Assisted Synthesis of Nanoparticles, Mechanisms and Applications covers in detail the green synthesis of nanostructures of tailor-made size, shape and physico-chemical and opto-electronic properties. The rationale behind the selection of bacteria, cyanobacteria, algae, fungi, virus and medicinal plants for the synthesis of biologically active exotic nanoparticles for biomedical applications is also part of this book. It also explores metal recovery, bioconversion, detoxification and removal of heavy metals using nanobiotechnology and discusses the potential of nanobiotechnology to address environmental pollution and toxicity. The book further covers the economic and commercial aspects of such green nanobiotechnology initiatives, its current status in intellectual property rights like patents filed so far globally, technology transfers, and market potential. This information enables one to decipher the scope of biogenic nanoparticles and its prospects. - Provides an overview on the general and applied aspects on nanotechnology - Gives the scope of exploring bacteria, fungi, algae, virus and medicinal plants for the synthesis of exotic nanoparticles - Furnishes a comprehensive report on the underlying molecular mechanisms behind the biosynthesis of nanoparticles - Outlines sustainable alternative strategies of bioremediation of heavy metals, metal recovery, detoxification and bioconversion using nanobiotechnology - Explores the promises of patenting, technology transfer and commercialization potential of biogenic nanoparticles |
| nanobiotechnology protocols: Nanobiotechnology: Principles and Applications Juhi Saxena, Abhijeet Singh, Anupam Jyoti, 2023-04-04 Nanobiotechnology is the application of nanotechnology in biological fields. Nanobiotechnology is a multidisciplinary field that currently engages researchers in conventional as well as advanced avenues of engineering and natural sciences.The recent developments in nanobiotechnology have impacted various socio-economic sectors, including medical, agriculture, food, textile, and other industries. Although the integration of nanomaterials with biology has led to the development of diagnostic devices, contrast agents, analytical tools, therapy, and drug-delivery vehicles, bionanotechnology research is still in its infancy. The full potential of developments in this field have yet to be realized. This book discusses various nano-engineered materials or nanocarriers that are used in different situations. It presents 8 chapters that cover the application of nanobiomaterials in environmental remediation, nanofertilisers, nanobiotics against antimicrobial resistance, nanobiosensors in pathogen detection, and nanotoxicity assessments. Each chapter is structured into easy-to-read sections that explain fundamental and applied concepts of nanobiomaterials. Readers will gain a current view of the biotechnological application of modern nanomaterials and nanoparticles. The book is intended to be a primer for students and researchers in agriculture, biotechnology, and biomedical engineering courses. |
| nanobiotechnology protocols: Nanobiotechnology for Agricultural Sciences J. C. Tarafdar, Deepak Kumar, Sanjay K. Singh, Krishna Pal Singh, 2025-07-11 Nanotechnology can provide effective solutions to address difficulties in agricultural production. This new volume brings together the most recent findings in agricultural nanotechnology as a smart delivery system for crop enhancement. It reports on state-of-the-art advances in nanotechnology for agricultural applications emphasizing the biogenic synthesis of nano-agri-input products (NAIPs) and technology’s economic potential in the establishment of sustainable agriculture. |
| nanobiotechnology protocols: Advances and Applications Through Fungal Nanobiotechnology Ram Prasad, 2016-11-08 Fungal nanobiotechnology has emerged as one of the key technologies, and an eco-friendly, as a source of food and harnessed to ferment and preserve foods and beverages, as well as applications in human health (antibiotics, anti-cholesterol statins, and immunosuppressive agents), while industry has used fungi for large-scale production of enzymes, acids, biosurfactants, and to manage fungal disease in crops and pest control. With the harnessing of nanotechnology, fungi have grown increasingly important by providing a greener alternative to chemically synthesized nanoparticles. |
| nanobiotechnology protocols: Nanobiotechnology II Chad A. Mirkin, Christof M. Niemeyer, 2007-02-27 This second volume on a burgeoning field retains the proven concept of the spectacularly successful first one, extending and supplementing it. Individual sections are each dedicated to nanoparticles, nanostructures and patterns, nanodevices and machines, and nanoanalytics. Essential reading for an entire generation of scientists, this authoritative survey defines one of the most important new scientific fields to have emerged for many decades. |
| nanobiotechnology protocols: Nanobiotechnology in Diagnosis, Drug Delivery and Treatment Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle, 2020-11-17 Presents nanobiotechnology in drug delivery and disease management Featuring contributions from noted experts in the field, this book highlights recent advances in the nano-based drug delivery systems. It also covers the diagnosis and role of various nanomaterials in the management of infectious diseases and non-infectious disorders, such as cancers and other malignancies and their role in future medicine. Nanobiotechnology in Diagnosis, Drug Delivery and Treatment starts by introducing how nanotechnology has revolutionized drug delivery, diagnosis, and treatments of diseases. It then focuses on the role of various nanocomposites in diagnosis, drug delivery, and treatment of diseases like cancer, Alzheimer's disease, diabetes, and many others. Next, it discusses the application of a variety of nanomaterials in the diagnosis and management of gastrointestinal tract disorders. The book explains the concept of nanotheranostics in detail and its role in effective monitoring of drug response, targeted drug delivery, enhanced drug accumulation in the target tissues, sustained as well as triggered release of drugs, and reduction in adverse effects. Other chapters cover aptamer-incorporated nanoparticle systems; magnetic nanoparticles; theranostics and vaccines; toxicological concerns of nanomaterials used in nanomedicine; and more. Provides a concise overview of state-of-the-art nanomaterials and their application like drug delivery in infectious diseases and non-infectious disorders Highlights recent advances in the nano-based drug delivery systems and role of various nanomaterials Introduces nano-based sensors which detect various pathogens Covers the use of nanodevices in diagnostics and theranostics Nanobiotechnology in Diagnosis, Drug Delivery and Treatment is an ideal book for researchers and scientists working in various disciplines such as microbiology, biotechnology, nanotechnology, pharmaceutical biotechnology, pharmacology, pharmaceutics, and nanomedicine. |
| nanobiotechnology protocols: Peptide Synthesis and Applications John Howl, 2008-02-02 Hands-on experts describe in step-by-step detail the key methodologies of contemporary peptide synthesis and illustrate their numerous applications. The techniques presented include protocols for chemical ligation, the synthesis of cyclic and phosphotyrosine-containing peptides, lipoamino acid- and sugar-conjugated peptides, and peptide purification and analyses. Additional chapters detail methodologies and instrumentation for high-throughput peptide synthesis, many different applications of peptides as novel research tools and biological probes, and the design and application of fluorescent substrate-based peptides that can be used to determine the selectivity and activity of peptidases. A practical guide to the identification of proteins using mass spectrometric analyses of peptide mixtures is also included. |
| nanobiotechnology protocols: Cell Imaging Techniques Douglas J. Taatjes, Brooke T. Mossman, 2008-02-04 A diverse collection of state-of-the-art methods for the microscopic imaging of cells and molecules. The authors cover a wide spectrum of complimentary techniques, including such methods as fluorescence microscopy, electron microscopy, atomic force microscopy, and laser scanning cytometry. Additional readily reproducible protocols on confocal scanning laser microscopy, quantitative computer-assisted image analysis, laser-capture microdissection, microarray image scanning, near-field scanning optical microscopy, and reflection contrast microscopy round out this eclectic collection of cutting-edge imaging techniques now available. The authors also discuss preparative methods for particles and cells by transmission electron microscopy. |
| nanobiotechnology protocols: Nanobiotechnology Alok Dhawan, Sanjay Singh, Ashutosh Kumar, Rishi Shanker, 2018-03-26 This book combines the contributions from the experts of material science, molecular biology, toxicology bio-organic and bio-inorganic chemistry, toxicologists and environmental and food technology etc. to fathom the full scope of current and future of developments in the area of Nanobiotechnology. Provides brief overview of nanobiotechnology for general readers who are not familiar with the research fields and presents a strong overview of most of the critical areas in field This book can also be used as text book for graduate students as an essential reference material, and as an reading material for general readers having a curiosity in Nanobiotechnology. |
| nanobiotechnology protocols: Fundamentals of Modern Bioprocessing Sarfaraz K. Niazi, Justin L. Brown, 2017-07-27 Biological drug and vaccine manufacturing has quickly become one of the highest-value fields of bioprocess engineering, and many bioprocess engineers are now finding job opportunities that have traditionally gone to chemical engineers. Fundamentals of Modern Bioprocessing addresses this growing demand. Written by experts well-established in the field, this book connects the principles and applications of bioprocessing engineering to healthcare product manufacturing and expands on areas of opportunity for qualified bioprocess engineers and students. The book is divided into two sections: the first half centers on the engineering fundamentals of bioprocessing; while the second half serves as a handbook offering advice and practical applications. Focused on the fundamental principles at the core of this discipline, this work outlines every facet of design, component selection, and regulatory concerns. It discusses the purpose of bioprocessing (to produce products suitable for human use), describes the manufacturing technologies related to bioprocessing, and explores the rapid expansion of bioprocess engineering applications relevant to health care product manufacturing. It also considers the future of bioprocessing—the use of disposable components (which is the fastest growing area in the field of bioprocessing) to replace traditional stainless steel. In addition, this text: Discusses the many types of genetically modified organisms Outlines laboratory techniques Includes the most recent developments Serves as a reference and contains an extensive bibliography Emphasizes biological manufacturing using recombinant processing, which begins with creating a genetically modified organism using recombinant techniques Fundamentals of Modern Bioprocessing outlines both the principles and applications of bioprocessing engineering related to healthcare product manufacturing. It lays out the basic concepts, definitions, methods and applications of bioprocessing. A single volume comprehensive reference developed to meet the needs of students with a bioprocessing background; it can also be used as a source for professionals in the field. |
| nanobiotechnology protocols: Expanding Nanobiotechnology: Applications and Commercialization Ali Talha Khalil, Arshad Islam, 2025-01-30 This book will cover recent and advanced concepts in nanobiotechnology, with deep focus on their applications and commercialization. Expanding Nanobiotechnology: Applications and Commercialization covers topics like green synthesis, microbial synthesis and their applications in medicine, imaging and nanotheranostics. It also includes success stories in food, energy and environment. The book explains the mechanistic insights in the biological synthesis of nanoparticles and includes discussion on the toxicity and interaction with the natural systems in detail. The chapters also examine synthesis and fabrication aspects in a concise manner. The book also highlights the possible therapeutic and imaging applications of biogenic nanomaterials in cancer therapies and explains the diverse mechanisms. The authors also present the hurdles, issues and concerns that hinder the large-scale commercial applications of the biogenic nanoparticles. Finally, apart from detailed discussion on the advanced futuristic applications of nanobiotechnology, specific contributions covering important topics like sustainability, ethics and dual use research concerns are included. This book is intended for researchers, biotechnologists, microbiologists and entrepreneurs spanning across diverse areas, including medicine, energy and the environment. |
| nanobiotechnology protocols: Applications of Nanobiotechnology Margarita Stoytcheva, Roumen Zlatev, 2020-07-08 This book is dedicated to the applications of nanobiotechnology, i.e. the way that nanotechnology is used to create devices to study biological systems and phenomena. It includes seven chapters, organized in two sections. The first section (Chapters 1–5) covers a large spectrum of issues associated with nanoparticle synthesis, nanoparticle toxicity, and the role of nanotechnology in drug delivery, tissue engineering, agriculture, and biosensing. The second section (Chapters 6 and 7) is devoted to the properties of nanofluids and the medical and biological applications of computational fluid dymanics modeling. |
| nanobiotechnology protocols: Nanobiotechnology: A Multidisciplinary Field of Science Basma A. Omran, 2020-08-25 The generation of well-defined nanoparticles of excellent size and shape involves physical and chemical methodologies that are complicated, expensive, and produce hazardous toxic waste that is harmful to the environment and to human health. In order to combat the disadvantages of these methods, scientists have created “the biological method,” a new synthetic methodology that serves as a proper alternative to physical and chemical methodologies because of its easy utility, low cost, rapid synthesis, controlled size characteristics, controlled toxicity, and eco-friendliness. Nanobiotechnology is the science in which living matter can be manipulated and exploited to produce materials within the nano-scale. It is a multidisciplinary field of science framed by biology, chemistry, engineering, materials, and life sciences. Different biological entities can be exploited to yield biologically synthesized nanomaterials including bacteria, actinomycetes, yeast, fungi, viruses, algae, plant extracts, and agro-industrial waste extracts. This book represents a comprehensive review concerning the state of the art in nanobiotechnology, emphasizing the use of diverse biological entities in the science, and its versatile applications. It describes currently existing methodology with the latest published references, and provides safety information. It serves as the ideal guide for scientists interested in exploring nanobiotechnology. |
| nanobiotechnology protocols: Nanobiotechnology for the Livestock Industry Ravindra Pratap Singh, Charles Oluwaseun Adetunji, Ram Lakhan Singh, Jay Singh, Pratima R. Solanki, Kshitij RB Singh, 2023-01-11 Nanobiotechnology for the Livestock Industry: Animal Health and Nutrition delivers a multidisciplinary reference of nanobiotechnology applications in various sectors, including farming practices, healthcare and breeding practices, market and economic analysis/benefits, biosafety, regulation, and more. The book explores nanobiotechnology's role in livestock handling, including hygiene maintenance and feed/nutrient delivery. The book also examines nanobiotechnology's role in maintaining nutrient quality in food products, and covers healthcare practices utilizing nanobiotechnology, such as maintaining and monitoring livestock health, diagnosis and treatment of disease, monitoring drug delivery, optimizing breeding patterns, and cryopreservation of sperm and eggs. - Discusses livestock diseases and major handling mistakes in livestock treatment and potential solutions - Provides detailed explanations of food safety technologies and food regulation policies - Presents a detailed analysis of market growth and trends related to the livestock industry - Includes biosafety and bioregulation of the nanobiotechnological tools used to produce transgenic animals |
| nanobiotechnology protocols: Nanotechnology Ron Legarski, Yash Patel, Zoltan Csernus, 2024-09-05 Nanotechnology: From Its Origin to Present and Future Applications offers a comprehensive and detailed exploration of nanotechnology, tracing its journey from early theoretical foundations to its current and potential future applications. Written by telecommunications and technology expert Ron Legarski, this book delves into the vast possibilities nanotechnology holds across various industries, including healthcare, energy, electronics, artificial intelligence, and telecommunications. With the convergence of nanotechnology, AI, and machine learning driving innovation, this book provides readers with a deep understanding of the science behind nanoscale structures and their real-world applications. Legarski combines his expertise with practical examples and case studies to demonstrate how nanotechnology is revolutionizing industries such as medicine, renewable energy, and advanced manufacturing. Key topics covered include: The historical development and theoretical foundations of nanotechnology Breakthroughs in nanomedicine, drug delivery systems, and diagnostics Applications of nanotechnology in AI, machine learning, and quantum computing The role of nanotechnology in creating sustainable energy solutions Ethical, environmental, and regulatory considerations in the development of nanomaterials Future prospects and trends in nanotechnology innovation Perfect for professionals, students, and enthusiasts alike, Nanotechnology: From Its Origin to Present and Future Applications provides an insightful, forward-looking guide to one of the most transformative technologies of the modern era. Whether you are new to the subject or seeking a deeper understanding, this book offers valuable perspectives on the future of science, technology, and industry. |
| nanobiotechnology protocols: Nanomedicine and Nanobiotechnology Stergios Logothetidis, 2012-01-15 This book presents the laboratory, scientific and clinical aspects of nanomaterials used for medical applications in the fields of regenerative medicine, dentistry and pharmacy. It gives a broad overview on the in vitro compatibility assessment of nanostructured materials implemented in the medical field by the combination of classical biological protocols and advanced non-destructive nano-precision techniques with special emphasis on the topographical, surface energy, optical and electrical properties. Materials in the physical form of nanoparticles, nanotubes, and thin films are addressed in terms of their toxicity. The different pillars of the Nanomedicine field are also highlighted. The book takes an interdisciplinary approach of medicine, biology, pharmacy, physics, chemistry, engineering, nanotechnology and materials science. The international group of authors specifically chosen for their distinguished expertise belong to the academic and industrial world in order to provide a broader perspective. It appeals to researchers and graduate students. |
| nanobiotechnology protocols: Nanobiotechnology for Safe Bioactive Nanobiomaterials Poushpi Dwivedi, Shahid S. Narvi, Ravi Prakash Tewari, Dhanesh Tiwary, 2022-09-02 This book begins with an introduction of nanobiotechnology, followed by biosyntheses of AgNPs, development of silver/chitosan (Ag/CS) polymer nanocomposites, synthesis of silver/chitosan-g-poly acrylamide (Ag/CS-g-PAAm) nanocomposite hydrogel and silver/chitosan/poly vinyl chloride (Ag/CS/PVC) blend. Finally, it presents novel bioengineering of polyfunctional metallic nanostructures other than Ag, emphasizing biomass utilization and value-added conversion over an extended span, including life cycle assessment of the synthesized nanostructures. Features: Includes prospective cost effective, eco-friendly, and safe nanomaterials, synthesized through facile paths Covers the synergistic effect of phytochemicals and nano-Ag antimicrobial agents from an antiviral perspective Includes surface coating systems and super absorbent materials for biomedical purposes Examines nanobiotechnological applications for generating nanoalloys with synchronized nanostructural arrangement of alkaline earth metals and nanoscale dots of transition metals Explores the life cycle assessment of synthesized nanomaterials This book aims at researchers and graduate students in biomaterials, chemical engineering, green chemistry, nanomaterials, and biotechnology. |
| nanobiotechnology protocols: Nanotechnology Cherry Bhargava, Amit Sachdeva, 2020-10-18 Nanotechnology: Advances and Real-Life Applications offers a comprehensive reference text about advanced concepts and applications in the field of nanotechnology. The text – written by researchers practicing in the field – presents a detailed discussion of key concepts including nanomaterials and their synthesis, fabrication and characterization of nanomaterials, carbon-based nanomaterials, nano-bio interface, and nanoelectronics. The applications of nanotechnology in the fields of renewable energy, medicine and agriculture are each covered in a dedicated chapter. The text will be invaluable for senior undergraduate and graduate students in the fields of electrical engineering, electronics engineering, nanotechnology and nanoscience. Dr. Cherry Bhargava is an Associate Professor and Head, VLSI domain, at the School of Electrical and Electronics Engineering of Lovely Professional University, Jalandhar, India. Dr. Amit Sachdeva is an Associate Professor at Lovely Professional University, Jalandhar, India. |
| nanobiotechnology protocols: Progress in Hydrogen Energy, Fuel Cells, Nano-Biotechnology and Advanced, Bioactive Compounds Carlton A. Taft, Sergio Ricardo de Lazaro, 2024-12-15 From cutting-edge quantum dots poised to revolutionize energy, health, and environmental sectors to the intricate design and characterization of perovskite-based solar cells, this comprehensive volume delves into the forefront of materials science and technology. Offering both theoretical depth and practical insights, it explores the latest advancements in fuel cells, spintronics, and quantum computing materials. Furthermore, it scrutinizes the mesmerizing realm of magnetism, phonon dynamics, and thermophysical properties through a detailed examination of gamma-Fe4N. Seamlessly integrating theory with experimentation, this book serves as an indispensable resource for researchers, engineers, and enthusiasts navigating the dynamic landscape of modern materials innovation. |
| nanobiotechnology protocols: Krētika chronika Andreas G. Kalokairinos, 1963 |
| nanobiotechnology protocols: Nanoparticles in Translational Science and Medicine A Villaverde, 2011-11-28 This volume explores some of the most exciting recent advances in basic research on nanoparticles in translational science and medicine and how this knowledge is leading to advances in the various fields. This series provides a forum for discussion of new discoveries, approaches, and ideas Contributions from leading scholars and industry experts Reference guide for researchers involved in molecular biology and related fields |
| nanobiotechnology protocols: Designing, Constructing, and Programming Robots for Learning Eteokleous, Nikleia, Nisiforou, Efi, 2021-11-19 The field of robotics in a classroom context has seen an increase in global momentum recently because of its positive contributions in the teaching of science, technology, engineering, mathematics (STEM) and beyond. It is argued that when robotics and programming are integrated in developmentally appropriate ways, cognitive skill development beyond STEM can be achieved. The development of educational robotics has presented a plethora of ways in which students can be assisted in the classroom. Designing, Constructing, and Programming Robots for Learning highlights the importance of integrating robotics in educational practice and presents various ways for how it can be achieved. It further explains how 21st century skills and life skills can be developed through the hands-on experience of educational robotics. Covering topics such as computational thinking, social skill enhancement, and teacher training, this text is an essential resource for engineers, educational software developers, teachers, professors, instructors, researchers, faculty, leaders in educational fields, students, and academicians. |
| nanobiotechnology protocols: Hormone Assays in Biological Fluids Michael J. Wheeler, William D. Fraser, J. S. Morley Hutchinson, 2008-02-04 Expert researchers who have developed and applied significant new assays describe in step-by-step detail a variety of methods for measuring a broad variety of hormones, related peptides, and synthetic steroids in various biological fluids. The hormones measured range from glucocorticoids in biological fluids, urinary steroids, aldosterone in blood, and plasma renin activity, to gut hormones in plasma, melatonin, prolactin, 6-sulfatoxymelatonin, and androgens in blood, saliva, and hair. The emphasis is on noncommercial assays so that investigators can set up novel methods suited to their special needs. Commercial assays are also described for comparative purposes. Tutorials on radioimmunoassay, gas chromatography-mass spectrometry, high-performance liquid chromatography, and PCR techniques help the reader to choose the best method for his or her purpose. |
| nanobiotechnology protocols: Nano-biotechnology for Waste Water Treatment Jai Prakash Narain Rai, Shweta Saraswat, 2022-05-31 This book embodies the potentials of nanobiotechnology-based water treatment techniques to provide a solid understanding of the subjects. Starting with a refresher of the basic conventional technologies which are now been integrated with nanomaterials for an efficient, viable, and eco-friendly treatment of contaminated water. The book covers various physical, chemical, and hybrid methods of nanobiomaterial synthesis and their fabrication for characterizing existing techniques. The book gives special attention to those nanotechnology-based approaches that promise easier, faster, and cheaper processes in contaminants monitoring and their treatment. Several case studies explain in an easy to understand format how employing nanobiomaterials as an indicator and analytical tool will enable students to learn about cleaning up the environment. |
| nanobiotechnology protocols: Pharmaceutical Nanotechnology Costas Demetzos, 2016-05-11 This textbook explains the fundamental aspects of nanotechnology and fills the gap between bio-inspired nanotechnological systems and functionality of living organisms, introducing new insights to their physicochemical, biophysical and thermodynamic behaviour. Addressed to all those involved in recent advances in pharmaceutics, this book is divided in three major parts: Part A refers to the physicochemical and thermodynamics aspects of nanosystems, wherein their biophysical behaviour is correlated with that of the cells of living organisms; Part B refers to the application of nanotechnology in imaging, diagnostics and therapeutics; Part C is focused on issues regarding safety and nanotoxicity of nanosystems, and the regulatory framework that surrounds these. The text promotes the concept that biophysics, thermodynamics and nanotechnology are considered to be emerging tools that, when approached within regulatory boundaries, provide new and integrated knowledge for the production of new medicines. In 2018, Prof. Demetzos was honored with an award by the Order of Sciences of the Academy of Athens for his scientific contribution in Pharmaceutical Nanotechnology. |
| nanobiotechnology protocols: Pharmaceutical Sciences: Breakthroughs in Research and Practice Management Association, Information Resources, 2016-12-28 The delivery of optimal pharmaceutical services to patients is a pivotal concern in the healthcare field. By examining current trends and techniques in the industry, processes can be maintained and improved. Pharmaceutical Sciences: Breakthroughs in Research and Practice provides comprehensive coverage of the latest innovations and advancements for pharmaceutical applications. Focusing on emerging drug development techniques and drug delivery for improved health outcomes, this book is ideally designed for medical professionals, pharmacists, researchers, academics, and upper-level students within the growing pharmaceutical industry. |
| nanobiotechnology protocols: Research on Environmental and Safety Impacts of Nanotechnology United States. Congress. House. Committee on Science, 2006 |
| nanobiotechnology protocols: Environmental Nanotechnology Volume 4 Nandita Dasgupta, Shivendu Ranjan, Eric Lichtfouse, 2020-01-01 This book presents comprehensive reviews on the latest developments of nanotechnologies to detect and remove pollutants in water, air and food. Polymer nanocomposites, nanoparticles from microbes and application of nanotechnologies for desalination and agriculture are also addressed. Pollution of water and air by contaminants and diseases is a major health issue leading globally to millions of deaths yearly, according to the World Health Organization, and such an issue requires advanced methods to clean environmental media. |
| nanobiotechnology protocols: Biocatalysis and Nanotechnology Peter Grunwald, 2017-10-25 Nanobiocatalysis has rapidly developed into a subarea of enzyme biotechnology. It combines the advances in nanotechnology that have generated nanoscale materials of different sizes, shapes, and physicochemical properties, and the excellent characteristics of biocatalysts into an innovative technology. This book provides an overview of the various relations between nanotechnology and biocatalysis. It discusses the fabrication and application of nanomaterials for the immobilization of enzymes used in the sustainable production of goods and chemicals. Nanosupports have several advantages compared with bulk solid materials because of their high surface area, which results in a significantly reduced mass transfer limitation and comparatively high enzyme loading. These characteristics are also of great use for applications in the fields of enzymatic biosensors, biofuel cells, bioelectronics, and photoelectrochemical analyte detection, where conductive nanomaterials improve the rate of electron transfer. The book also presents an overview of nanotoxicology and covers nanostructured enzyme catalysis in organic solvents and its potential application for biodiesel production, probing of enzymatic activity, and identification of enzyme functions of inorganic nanoparticles as enzyme mimics. |
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