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Published: 7 September 2023

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1

Russo, Nino. SelfOrganization of Molecular Systems: From Molecules and Clusters to Nanotubes and Proteins. Dordrecht: Springer Netherlands, 2009.

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2

NATO Advanced Research Workshop on Molecular Low Dimensional and Nanostructured Materials for Advanced Applications (2001 Poznań, Poland). Molecular low dimensional and nanostructured materials for advanced applications. Dordrecht: Kluwer Academic, 2002.

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3

Evarestov, Robert A. Quantum Chemistry of Solids: LCAO Treatment of Crystals and Nanostructures. 2nd ed. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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4

1945-, Saito G., and Pacifichem 2005 (2005 : Honolulu, Hawaii), eds. Multifunctional conducting molecular materials. Cambridge: RSC Publishing, 2007.

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5

Advances In The Theory Of Atomic And Molecular Systems Dynamics Spectroscopy Clusters And Nanostructures. Springer, 2009.

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6

Li, Jing, and Xiao-Ying Huang. Nanostructured crystals: An unprecedented class of hybrid semiconductors exhibiting structure-induced quantum confinement effect and systematically tunable properties. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.16.

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This article describes the structure-induced quantum confinement effect in nanostructured crystals, a unique class of hybrid semiconductors that incorporate organic and inorganic components into a single-crystal lattice via covalent (coordinative) bonds to form extended one-, two- and three-dimensional network structures. These structures are comprised of subnanometer-sized II-VI semiconductor segments (inorganic component) and amine molecules (organic component) arranged into perfectly ordered arrays. The article first provides an overview of II-VI and III-V semiconductors, II-VI colloidal quantum dots, inorganic-organic hybrid materials before discussing the design and synthesis of I-VI-based inorganic-organic hybrid nanostructures. It also considers the crystal structures, quantum confinement effect, bandgaps, and optical properties, thermal properties, thermal expansion behavior of nanostructured crystals.
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7

Hong, S., Y. K. Kwon, J. S. Ha, N. K. Lee, B. Kim, and M. Sung. Self-assembly strategy of nanomanufacturing of hybrid devices. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.10.

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This article considers the nanomanufacturing of hybrid devices using the self-assembly strategy. Hybrid devices utilize nanomaterials such as nanoparticles, organic molecules, carbon nanotubes (CNTs), and nanowires. Examples include CNT-based circuits and molecular electronics. However, a major stumbling block holding back the practical applications of hybrid systems can be a lack of a mass-production method for such devices. This article first describes the direct patterning of nanostructures by means of dip-pen nanolithography and microcontact printing before discussing the fabrication of nanostructures using directed assembly. It also examines the mechanism of various assembly processes ofnanostructures and concludes with an overview of the characteristics of self-assembled hybrid nanodevices.
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8

McGuiness, C. L., R. K. Smith, M. E. Anderson, P. S. Weiss, and D. L. Allara. Nanolithography using molecular films and processing. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.23.

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This article focuses on the use of molecular films as building blocks for nanolithography. More specifically, it reviews efforts aimed at utilizing organic molecular assemblies in overcoming the limitations of lithography, including self-patterning and directed patterning. It considers the methods of patterning self-assembled organic monolayer films through soft-lithographic methods such as microcontact printing and nanoimprint lithography, through direct ‘write’ or ‘machine’ processes with a nanometer-sized tip and through exposure to electron or photon beams. It also discusses efforts to pattern the organic assemblies via the physicochemical self-assembling interactions, including patterning via phase separation of chemically different molecules and insertion of guest adsorbates into host matrices. Furthermore, it examines the efforts that have been made to couple patterned molecular assemblies with inorganic thin-film growth methods to form spatially constrained, three-dimensional thin films. Finally, it describes a hybrid self-assembly/conventional lithography (i.e. molecular rulers) approach to forming nanostructures.
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9

Ouahab, Lahcene. Multifunctional Molecular Materials. Pan Stanford Publishing, 2013.

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10

Multifunctional Molecular Materials. Pan Stanford Publishing, 2012.

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11

Enoki, Toshiaki, Gunzi Saito, Fred Wudl, Robert C. Haddon, and Katsumi Tanigaki. Multifunctional Conducting Molecular Materials. Royal Society of Chemistry, The, 2007.

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12

Wilson, Stephen, Jean Maruani, Piotr Piecuch, and Gerardo Delgado-Barrio. Advances in the Theory of Atomic and Molecular Systems: Dynamics, Spectroscopy, Clusters, and Nanostructures. Springer, 2012.

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13

Wilson, Stephen, Jean Maruani, Piotr Piecuch, and Gerardo Delgado-Barrio. Advances in the Theory of Atomic and Molecular Systems: Dynamics, Spectroscopy, Clusters, and Nanostructures. Springer, 2009.

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14

Ghosh, Srabanti. Visible-Light-Active Photocatalysis: Nanostructured Catalyst Design, Mechanisms, and Applications. Wiley & Sons, Incorporated, John, 2018.

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15

Ghosh, Srabanti. Visible-Light-Active Photocatalysis: Nanostructured Catalyst Design, Mechanisms, and Applications. Wiley & Sons, Incorporated, John, 2018.

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16

Visible-Light-Active Photocatalysis: Nanostructured Catalyst Design, Mechanisms and Applications. Wiley-VCH Verlag GmbH, 2018.

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17

Ghosh, Srabanti. Visible-Light-Active Photocatalysis: Nanostructured Catalyst Design, Mechanisms, and Applications. Wiley & Sons, Incorporated, John, 2018.

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18

(Editor), A. Graja, B. R. Bulka (Editor), and F. Kajzar (Editor), eds. Molecular Low Dimensional and Nanostructured Materials for Advanced Applications (NATO Science Series II: Mathematics, Physics and Chemistry). Springer, 2002.

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19

(Editor), A. Graja, B. R. Bulka (Editor), and F. Kajzar (Editor), eds. Molecular Low Dimensional and Nanostructured Materials for Advanced Applications (NATO Science Series II: Mathematics, Physics and Chemistry). Springer, 2002.

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20

Evarestov, Robert A. Quantum Chemistry of Solids: LCAO Treatment of Crystals and Nanostructures. Springer, 2013.

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21

Evarestov, Robert A. Quantum Chemistry of Solids: LCAO Treatment of Crystals and Nanostructures. Springer Berlin / Heidelberg, 2015.

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22

(Editor), Werner J. Blau, Panagiotis Lianos (Editor), and Ulrich Schubert (Editor), eds. Molecular Materials and Functional Polymers (Monatshefte Fur Chemie/Chemical Monthly). Springer, 2001.

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23

(Editor), Gunzi Saito, Fred Wudl (Editor), Robert C. Haddon (Editor), Katsumi Tanigaki (Editor), Toshiaki Enoki (Editor), Howard E. Katz (Editor), and Mitsuhiko Maesato (Editor), eds. Multifunctional Conducting Molecular Materials (Special Publications). Royal Society of Chemistry, 2006.

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24

Russo, Nino, Victor Ya Antonchenko, and Eugene Kryachko. Self-Organization of Molecular Systems. Springer, 2009.

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25

Rai, Dibya Prakash, ed. Advanced Materials and Nano Systems: Theory and Experiment - Part 2. BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/97898150499611220201.

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The discovery of new materials and the manipulation of their exotic properties for device fabrication is crucial for advancing technology. Nanoscience, and the creation of nanomaterials have taken materials science and electronics to new heights for the benefit of mankind. Advanced Materials and Nanosystems: Theory and Experiment covers several topics of nanoscience research. The compiled chapters aim to update students, teachers, and scientists by highlighting modern developments in materials science theory and experiments. The significant role of new materials in future technology is also demonstrated. The book serves as a reference for curriculum development in technical institutions and research programs in the field of physics, chemistry and applied areas of science like materials science, chemical engineering and electronics. This part covers 12 topics in these areas: 1. Recent advancements in nanotechnology: a human health Perspective 2. An exploratory study on characteristics of SWIRL of AlGaAs/GaAs in advanced bio based nanotechnological systems 3. Electronic structure of the half-Heusler ScAuSn, LuAuSn and their superlattice 4. Recent trends in nanosystems 5. Improvement of performance of single and multicrystalline silicon solar cell using low-temperature surface passivation layer and antireflection coating 6. Advanced materials and nanosystems 7. Effect of nanostructure-materials on optical properties of some rare earth ions doped in silica matrix 8. Nd2Fe14B and SmCO5: a permanent magnet for magnetic data storage and data transfer technology 9. Visible light induced photocatalytic activity of MWCNTS decorated sulfide based nano photocatalysts 10. Organic solar cells 11. Neodymium doped lithium borosilicate glasses 12. Comprehensive quantum mechanical study of structural features, reactivity, molecular properties and wave function-based characteristics of capmatinib
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26

(Editor), Eugenia V. Buzaneva, and Peter Scharff (Editor), eds. Frontiers of Multifunctional Integrated Nanosystems: Proceedings of the NATO ARW on Frontiers of Molecular-scale Science and Technology of Nanocarbon, ... II: Mathematics, Physics and Chemistry). Springer, 2004.

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27

Kremer, Friedrich. Dynamics in Geometrical Confinement. Springer London, Limited, 2014.

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28

Dynamics in Geometrical Confinement. Springer, 2014.

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