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Libros sobre el tema "Nanoparticles - Biological Applications"

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Autor: Grafiati
Publicado: 7 de septiembre de 2023

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1

Bellucci, Stefano, ed. Nanoparticles and Nanodevices in Biological Applications. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-70946-6.

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2

1973-, King M. R. y Gee D. J. 1964-, eds. Multiscale modeling of particle interactions: Applications in biology and nanotechnology. Hoboken, N.J: Wiley, 2010.

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3

King, M. R. Multiscale modeling of particle interactions: Applications in biology and nanotechnology. Hoboken, N.J: Wiley, 2010.

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4

Nanoparticles And Nanodevices In Biological Applications. Springer, 2008.

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5

Ranjan, Shivendu, L. Karthik, A. Vishnu Kirthi y V. Mohana Srinivasan. Biological Synthesis of Nanoparticles and Their Applications. Taylor & Francis Group, 2020.

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6

Ranjan, Shivendu, L. Karthik, A. Vishnu Kirthi y V. Mohana Srinivasan. Biological Synthesis of Nanoparticles and Their Applications. Taylor & Francis Group, 2020.

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7

Ranjan, Shivendu, L. Karthik, A. Vishnu Kirthi y V. Mohana Srinivasan. Biological Synthesis of Nanoparticles and Their Applications. Taylor & Francis Group, 2020.

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8

Ranjan, Shivendu, L. Karthik, A. Vishnu Kirthi y V. Mohana Srinivasan. Biological Synthesis of Nanoparticles and Their Applications. Taylor & Francis Group, 2020.

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9

Ranjan, Shivendu, L. Karthik, A. Vishnu Kirthi y V. Mohana Srinivasan. Biological Synthesis of Nanoparticles and Their Applications. Taylor & Francis Group, 2020.

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10

Green Biosynthesis Of Nanoparticles Mechanisms And Applications. CABI Publishing, 2013.

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11

Rinaldi, Carlos, Eun Ji Chung y Lorraine Leon. Nanoparticles for Biomedical Applications: Fundamental Concepts, Biological Interactions and Clinical Applications. Elsevier, 2019.

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12

Rinaldi, Carlos, Eun Ji Chung y Lorraine Leon. Nanoparticles for Biomedical Applications: Fundamental Concepts, Biological Interactions and Clinical Applications. Elsevier, 2019.

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13

Bellucci, Stefano. Nanoparticles and Nanodevices in Biological Applications: The INFN Lectures - Vol I. Springer, 2009.

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14

Bellucci, Stefano. Nanoparticles and Nanodevices in Biological Applications: The INFN Lectures - Vol I. Springer, 2010.

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15

Honeychurch, Kevin C. Nanosensors for Chemical and Biological Applications: Sensing with Nanotubes, Nanowires and Nanoparticles. Elsevier Science & Technology, 2018.

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16

Khan, Anish, Imran Khan, Mohammad Mujahid Ali Khan, Salma A. Alzahrane y Ahmed Alotaibi. Magnetic Nanoparticles and Polymer Nanocomposites: Fundamentals and Biological, Environmental and Energy Applications. Elsevier Science & Technology, 2023.

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17

Khan, Anish, Imran Khan, Mohammad Mujahid Ali Khan, Salma A. Alzahrane y Ahmed Alotaibi. Magnetic Nanoparticles and Polymer Nanocomposites: Fundamentals and Biological, Environmental and Energy Applications. Elsevier Science & Technology, 2022.

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18

Honeychurch, Kevin C. Nanosensors for Chemical and Biological Applications: Sensing with Nanotubes, Nanowires and Nanoparticles. Elsevier Science & Technology, 2021.

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19

Honeychurch, Kevin C. Nanosensors for Chemical and Biological Applications: Sensing with Nanotubes, Nanowires and Nanoparticles. Elsevier Science & Technology, 2014.

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20

Maysinger, Dusica, P. Kujawa y Jasmina Lovrić. Nanoparticles in medicine. Editado por A. V. Narlikar y Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.14.

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This article examines the applications of nanoparticles in medicine. Nanomedicine is a promising field that can make available different nanosystems whose novel, usually size-dependent, physical, chemical and/or biological properties are exploited to combat the disease of interest. One kind of particulate systems represents a vast array of either metallic,semiconductor, polymeric, protein or lipid nanoparticles that can be exploited for diagnosis and treatment of various diseases. This article first provides an overview of general issues related to physicochemical and biological properties of different nanoparticles. It then considers the current problems associated with the use of nanoparticles in medicine and suggests some solutions. It also discusses the interaction of nanoparticles with cells and factors that determine these interactions and concludes with some examples of new approaches for real-time imaging of experimental animals that could be useful, complementary methods for evaluations of effectiveness (or toxicity) of novel nanomaterials andnanomedicines.
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21

J, Murphy Catherine, Society of Photo-optical Instrumentation Engineers. y United States. Air Force. Office of Scientific Research., eds. Nanoparticles and nanostructured surfaces: Novel reporters with biological applications : 24-25 January 2001, San Jose, USA. Bellingham, Wash., USA: SPIE, 2001.

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22

Roy, Nandini, Utshab Singha, Saurav Paul, Gaurav Kumar Pushp, Swagat Bardoloi, Maimy Debbarma y Freeman Boro. Metal Oxide Nanomaterials. Editado por Sunayana Goswami (Ed.). Glasstree, 2020. http://dx.doi.org/10.20850/9781716360367.

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Engineered nanoparticles have been used widely in various sectors such as electronics, construction, health, energy, remediation and agriculture etc. In recent years, Metal oxide nanoparticles have become one of the important class of materials for both material and biological applications. For instance, Zinc oxide Nanoparticles has its effective bioapplications in various fields including pharmaceuticals, medicines, and agriculture. At the same time, these are of high important due to their utilization in biosensors, cosmetics, drug-delivery systems etc. This book documents some important aspects of metal oxide nanomaterials highlighting their material, environmental and biological prospects.
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23

Bioinspired Nanomaterials. Materials Research Forum LLC, 2021. http://dx.doi.org/10.21741/9781644901571.

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Biological synthesis employing microorganisms, fungi or plants is an alternative method to produce nanoparticles in low-cost and eco-friendly ways. The book covers the synthesis of metal nanoparticles, metal oxide nanostructures and nanocomposite materials, as well as the stability and characterization of bioinspired nanomaterials. Applications include optical and electrochemical sensors, packaging, SERS and drug delivery processes.
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24

Carter, Joshua D., Chenxiang Lin, Yan Liu, Hao Yan y Thomas H. LaBean. DNA-based self-assembly of nanostructures. Editado por A. V. Narlikar y Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.24.

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This article examines the DNA-based self-assembly of nanostructures. It first reviews the development of DNA self-assembly and DNA-directed assembly, focusing on the main strategies and building blocks available in the modern molecular construction toolbox, including the design, construction, and analysis of nanostructures composed entirely of synthetic DNA, as well as origami nanostructures formed from a mixture of synthetic and biological DNA. In particular, it considers the stepwise covalent synthesis of DNA nanomaterials, unmediated assembly of DNA nanomaterials, hierarchical assembly, nucleated assembly, and algorithmic assembly. It then discusses DNA-directed assembly of heteromaterials such as proteins and peptides, gold nanoparticles, and multicomponent nanostructures. It also describes the use of complementary DNA cohesion as 'smart glue' for bringing together covalently linked functional groups, biomolecules, and nanomaterials. Finally, it evaluates the potential future of DNA-based self-assembly for nanoscale manufacturing for applications in medicine, electronics, photonics, and materials science.
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25

Auciello, Orlando, ed. Ultrananocrystalline Diamond Coatings for Next-Generation High-Tech and Medical Devices. Cambridge University Press, 2022. http://dx.doi.org/10.1017/9781316105177.

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A comprehensive guide to the science of a transformational ultrananocrystalline-diamond (UNCDTM) thin film technology enabling a new generation of high-tech and external and implantable medical devices. Edited and co-authored by a co-originator and pioneer in the field, it describes the synthesis and material properties of UNCDTM coatings and multifunctional oxide/nitride thin films and nanoparticles, and how these technologies can be integrated into the development of implantable and external medical devices and treatments of human biological conditions. Bringing together contributions from experts around the world, it covers a range of clinical applications, including ocular implants, glaucoma treatment devices, implantable prostheses, scaffolds for stem cell growth and differentiation, Li-ion batteries for defibrillators and pacemakers, and drug delivery and sensor devices. Technology transfer and regulatory issues are also covered. This is essential reading for researchers, engineers and practitioners in the field of high-tech and medical device technologies across materials science and biomedical engineering.
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26

Sinharoy, Arindam y Piet N. L. Lens, eds. Environmental Technologies to Treat Rare Earth Elements Pollution: Principles and Engineering. IWA Publishing, 2022. http://dx.doi.org/10.2166/9781789062236.

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Rare earth elements (REE) have applications in various modern technologies, e.g., semiconductors, mobile phones, magnets. They are categorized as critical raw materials due to their strategic importance in economies and high risks associated with their supply chain. Therefore, more sustainable practices for efficient extraction and recovery of REE from secondary sources are being developed. This book, Environmental Technologies to Treat Rare Earth Elements Pollution: Principles and Engineering: presents the fundamentals of the (bio)geochemical cycles of rare earth elements and which imbalances in these cycles result in pollution.overviews physical, chemical and biological technologies for successful treatment of water, air, soils and sediments contaminated with different rare earth elements.explores the recovery of value-added products from waste streams laden with rare earth elements, including nanoparticles and quantum dots. This book is suited for teaching and research purposes as well as professional reference for those working on rare earth elements. In addition, the information provided in this book is helpful to scientists, researchers and practitioners in related fields, such as those working on metal/metalloid microbe interaction and sustainable green approaches for resource recovery from wastes. ISBN: 9781789062229 (Paperback) ISBN: 9781789062236 (eBook) ISBN: 9781789062243 (ePUB)
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