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Books on the topic 'Functional nanoparticles'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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1

Hepel, Maria, and Chuan-Jian Zhong, eds. Functional Nanoparticles for Bioanalysis, Nanomedicine, and Bioelectronic Devices Volume 1. Washington, DC: American Chemical Society, 2012. http://dx.doi.org/10.1021/bk-2012-1112.

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2

Hepel, Maria, and Chuan-Jian Zhong, eds. Functional Nanoparticles for Bioanalysis, Nanomedicine, and Bioelectronic Devices Volume 2. Washington, DC: American Chemical Society, 2012. http://dx.doi.org/10.1021/bk-2012-1113.

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3

Barchanski, Annette. Laser-Generated Functional Nanoparticle Bioconjugates. Wiesbaden: Springer Fachmedien Wiesbaden, 2016. http://dx.doi.org/10.1007/978-3-658-13515-7.

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4

Shinkinō biryūshi zairyō no kaihatsu to purosesu gijutsu: Development and processing technology of new function corpuscle materials. Tōkyō-to Chiyoda-ku: Shīemushī Shuppan, 2012.

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5

Prasad, Ram, Jeyabalan Sangeetha, and Devarajan Thangadurai. Functional Bionanomaterials: From Biomolecules to Nanoparticles. Springer, 2020.

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6

Ohio) Functional Fillers and Nanoscale Minerals Symposium (2003 : Cincinnati. Functional Fillers and Nanoscale Minerals. Society for Mining Metallurgy & Exploration, 2003.

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7

Berger, Thomas, and Oliver Diwald. Metal Oxide Nanoparticles: Formation, Functional Properties and Interfaces. Wiley & Sons, Incorporated, John, 2020.

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8

Berger, Thomas, and Oliver Diwald. Metal Oxide Nanoparticles: Formation, Functional Properties and Interfaces. Wiley & Sons, Limited, John, 2021.

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9

Berger, Thomas, and Oliver Diwald. Metal Oxide Nanoparticles: Formation, Functional Properties and Interfaces. Wiley & Sons, Incorporated, John, 2020.

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10

Chemistry, Royal Society of. Nanoparticles with Morphological and Functional Anisotropy: Faraday Discussion 191. Royal Society of Chemistry, The, 2016.

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11

Marie-Isabelle, Baraton, Uvarova Irina, and NATO Advanced Study Institute on Functional Gradient Materials and Surface Layers Prepared by Fine Particles Technology (2000 : Kiev, Ukraine), eds. Functional gradient materials and surface layers prepared by fine particles technology. Dordrecht: Kluwer Academic Publishers, 2001.

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12

Hepel, Maria, and Chuan-Jian Zhong. Functional Nanoparticles for Bioanalysis, Nanomedicine, and Bioelectronic Devices Volume 2. American Chemical Society, 2013.

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13

Hepel, Maria, and Chuan-Jian Zhong. Functional Nanoparticles for Bioanalysis, Nanomedicine, and Bioelectronic Devices Volume 1. American Chemical Society, 2013.

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14

Solution Synthesis of Inorganic Functional Materials - Films, Nanoparticles, and Nanocomposites: Volume 1547. Cambridge University Press, 2013.

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15

(Editor), Marie-Isabelle Baraton, and Irina V. Uvarova (Editor), eds. Functional Gradient Materials and Surface Layers Prepared by Fine Particles Technology (NATO Science Series II: Mathematics, Physics and Chemistry). Springer, 2001.

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16

Mitoseriu, Liliana, and Adelina Ianculescu. BaO3 - Functional Materials: From Nanopowders to Bulk Ceramics. Nova Science Publishers, Incorporated, 2010.

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17

Carter, Joshua D., Chenxiang Lin, Yan Liu, Hao Yan, and Thomas H. LaBean. DNA-based self-assembly of nanostructures. Edited by A. V. Narlikar and 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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18

Barchanski, Annette. Laser-Generated Functional Nanoparticle Bioconjugates: Design for Application in Biomedical Science and Reproductive Biology. Springer Spektrum, 2016.

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19

Brönmark, Christer, and Lars-Anders Hansson. Biodiversity and Environmental Threats. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198713593.003.0006.

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The last chapter of Lakes and Ponds deals with how human activities affect the natural ecosystems and their function through eutrophication, contamination, acidification, brownification and increases in UV radiation, and how such anthropogenic disturbances may affect biodiversity and the ability of organisms to utilize a specific habitat. In addition, the chapter addresses novel environmental threats, such as global climate change and effects from our everyday chemicals, such as contraceptives, nanoparticles and antidepressant drugs. However, also possibilities and signs of improvement are discussed, providing hope for coming generations.
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20

Michels, Andreas. Magnetic Small-Angle Neutron Scattering. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780198855170.001.0001.

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This book provides the first extensive treatment of magnetic small-angle neutron scattering (SANS). The theoretical background required to compute magnetic SANS cross sections and correlation functions related to long-wavelength magnetization structures is laid out; and these concepts are scrutinized based on the discussion of experimental neutron data. Regarding prior background knowledge, some familiarity with the basic magnetic interactions and phenomena, as well as scattering theory, is desired. The target audience comprises Ph.D. students and researchers working in the field of magnetism and magnetic materials who wish to make efficient use of the magnetic SANS method. Besides revealing the origins of magnetic SANS (Chapter 1), and furnishing the basics of the magnetic SANS technique (Chapter 2), much of the book is devoted to a comprehensive treatment of the continuum theory of micromagnetics (Chapter 3), as it is relevant for the study of the elastic magnetic SANS cross section. Analytical expressions for the magnetization Fourier components allow one to highlight the essential features of magnetic SANS and to analyze experimental data both in reciprocal (Chapter 4) and real space (Chapter 6). Chapter 5 provides an overview of the magnetic SANS of nanoparticles and so-called complex systems (e.g., ferrofluids, magnetic steels, spin glasses, and amorphous magnets). It is this subfield where major progress is expected to be made in the coming years, mainly via the increased use of numerical micromagnetic simulations (Chapter 7), which is a very promising approach for the understanding of the magnetic SANS from systems exhibiting nanoscale spin inhomogeneity.
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