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Books on the topic 'Nanostructured architectures'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

V, Diudea Mircea, ed. Nanostructures: Novel architecture. Hauppauge, N.Y: Nova Science Publishers, 2005.

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2

Champion, Yannik, and Hans-Jörg Fecht, eds. Nano-Architectured and Nanostructured Materials. Weinheim, FRG: Wiley-VCH Verlag GmbH & Co. KGaA, 2004. http://dx.doi.org/10.1002/3527606017.

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3

1939-, Vögtle F., and Astruc D, eds. Dendrimers II: Architecture, nanostructure and supramolecular chemistry. Berlin: Springer, 2000.

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4

Y, Champion, and Fecht Hans-Jörg, eds. Nano-architectured and nanostructured materials: Fabrication, control and properties. Weinheim: Wiley-VCH, 2004.

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5

Y, Champion, and Fecht Hans-Jörg, eds. Nano-architectured and nanostructured materials: Fabrication, control and properties. Weinheim: Wiley-VCH, 2004.

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6

Yves, Bréchet, Embury J. D, and Onck Patrick R, eds. Architectured multifunctional materials: Symposium held April 14-16, San Francisco, California, U.S.A. Warrendale, Pa: Materials Research Society, 2009.

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7

Marius, Kölbel, and Peters Sascha, eds. Nano materials in architecture, interior architecture, and design. Basel: Birkhäuser, 2008.

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8

Chattopadhyay, Surojit. Biomimetic Architectures by Plasma Processing: Fabrication and Applications. Pan Stanford Publishing, 2014.

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9

Biomimetic Architectures by Plasma Processing: Fabrication and Applications. Taylor & Francis Group, 2014.

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10

Ginzburg, Madlen. Polyferrocenylsilane architectures and precursors to magnetic ceramics: Multidimensional shapes, patterns, films, and nanostructured composites. 2003, 2003.

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11

Kong, X. Y., Y. C. Wang, X. F. Fan, G. F. Guo, and L. M. Tong. Free-standing grid-like nanostructures assembled into 3D open architectures for photovoltaic devices. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.22.

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This article describes three-dimensional open architectures with free-standing grid-like nanostructure arrays as photocatalytic electrodes for a new type of dye-sensitized solar cell. It introduces a novel technique for fabricating a series of semiconducting oxides with grid-like nanostructures replicated from the biotemplates. These semiconducting oxides, including n-type titanium dioxide or p-type nickel oxide nanogrids, were sensitized with the dye molecules, then assembled into 3D stacked-grid arrays on a flexible substrate by means of the Langmuir–Blodgett method or the ink-jet printing technique for the photocatalytic electrodes. The article first considers the fabrication of photoelectrodes with 2D grid-like nanostructures by means of the biotemplating approach before discussing the assembly and photophysicsof grid-like nanostructures into 3D open architectures for the photocatalytic electrodes.
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12

(Contributor), Alexandru T. Balaban, Teodor S. Balaban (Contributor), Tibor Braun (Contributor), and Mircea V. Diudea (Editor), eds. Nanostructures: Novel Architecture. Nova Science Publishers, 2006.

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13

Nano-Architectured and Nanostructured Materials. Weinheim: John Wiley & Sons, Inc., 2006.

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14

Brechet, Yves J. M., J. David Embury, and Patrick R. Onck. Architectured Multifunctional Materials: Volume 1188. University of Cambridge ESOL Examinations, 2014.

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15

Emerging Applications of Nanoparticles and Architecture Nanostructures. Elsevier, 2018. http://dx.doi.org/10.1016/c2016-0-01906-x.

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16

Vögtle, Fritz. Dendrimers Ii: Architecture, Nanostructure And Supramolecular Chemistry. Springer, 2010.

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17

Vögtle, Fritz. Dendrimers II: Architecture, Nanostructure and Supramolecular Chemistry. Springer London, Limited, 2003.

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18

Nano-Architectured and Nanostructured Materials: Fabrication, Control and Properties. Wiley-VCH, 2005.

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19

Leydecker, Sylvia, Michael Veith, Sascha Peters, Harold Kroto, and Marius Kölbel. Nano Materials: In Architecture, Interior Architecture and Design. de Gruyter GmbH, Walter, 2008.

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20

Makhlouf, Abdel Salam Hamdy, and Ahmed Barhoum. Emerging Applications of Nanoparticles and Architecture Nanostructures: Current Prospects and Future Trends. Elsevier Science & Technology Books, 2018.

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21

Makhlouf, Abdel Salam Hamdy, and Ahmed Barhoum. Emerging Applications of Nanoparticles and Architectural Nanostructures: Current Prospects and Future Trends. Elsevier Science & Technology Books, 2018.

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22

Dalton, Larry R. Nanomaterials and Nanotechnology: Molecular Architectural Engineering on the Nanometer Scale. Wiley & Sons, Incorporated, John, 2016.

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23

Vögtle, Fritz. Dendrimers II: Architecture, Nanostructure and Supramolecular Chemistry (Topics in Current Chemistry). Springer, 2000.

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24

Ziegenbalg, Gerald, Milos Drdácký, Claudia Dietze, and Dirk Schuch. Nanomaterials in Architecture and Art Conservation. Jenny Stanford Publishing, 2018.

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25

Ziegenbalg, Gerald, Milos Drdácký, Claudia Dietze, and Dirk Schuch. Nanomaterials in Architecture and Art Conservation. Jenny Stanford Publishing, 2018.

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26

Ziegenbalg, Gerald, Milos Drdácký, Claudia Dietze, and Dirk Schuch. Nanomaterials in Architecture and Art Conservation. Jenny Stanford Publishing, 2018.

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27

Ziegenbalg, Gerald, Milos Drdácký, Claudia Dietze, and Dirk Schuch. Nanomaterials in Architecture and Art Conservation. Jenny Stanford Publishing, 2018.

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28

Nanomaterials in Architecture and Art Conservation. Taylor & Francis Group, 2018.

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29

Nanoelectronics and Photonics: From Atoms to Materials, Devices, and Architectures (Nanostructure Science and Technology). Springer, 2008.

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30

Pang, Changhyun, Chanseok Lee, Hoon Eui Jeong, and Kahp-Yang Suh. Skin and dry adhesion. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199674923.003.0022.

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Close observation of various attachment systems in animal skins has revealed various exquisite multi-scale architectures for essential functions such as locomotion, crawling, mating, and protection from predators. Some of these adhesion systems of geckos and beetles have unique structural features (e.g. high-aspect ratio, tilted angle, and hierarchical nanostructure), resulting in mechanical interlocking mediated by van der Waals forces or liquid secretion (capillary force). In this chapter, we present an overview of recent advances in bio-inspired, artificial dry adhesives, and biomimetics in the context of nanofabrication and material properties. In addition, relevant bio-inspired structural materials, devices (clean transportation device, interlocker, biomedical skin patch, and flexible strain-gauge sensor) and microrobots are briefly introduced, which would shed light on future smart, directional, and reversible adhesion systems.
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31

Adler, M. Properties and potential of protein–DNA conjugates for analytic applications. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.25.

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This article examines the properties of protein-DNA conjugates and their potential for analytic applications. It begins with a discussion of DNA as a rigid construction tool for protein networks, reducing its functionality to the molecular equivalent of a steel bar in 'large-scale' architecture. It then describes DNA functionality in protein-DNA conjugates, like specific recognition of nucleotide sequences or its unique use as an amplification template. It also considers a range of applications for protein-DNA conjugates, including the use of artificial DNA-protein nanostructures as supramolecular building blocks and DNA-antibody conjugates for ultrasensitive antigen detection. Finally, it evaluates DNA-directed immobilization of protein-DNA adaptor molecules for flexible protein arrays. It shows that protein-DNA conjugates can be used as analytical targets for challenging and calibrating the properties of high-resolution atomic force microscopy, as well as analytical reagents for ultrasensitive target detection in immuno-PCR and related techniques.
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