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| 037 |
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|a 10.1002/9781118095331
|b Wiley InterScience
|n http://www3.interscience.wiley.com
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| 050 |
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4 |
|a QD880
|b .S87 2011
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| 072 |
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7 |
|a SCI
|x 013070
|2 bisacsh
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| 049 |
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|a HCDD
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| 245 |
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|a Supramolecular soft matter :
|b applications in materials and organic electronics /
|c edited by Takashi Nakanishi.
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| 260 |
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|a Hoboken, N.J. :
|b Wiley,
|c ©2011.
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| 300 |
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|a 1 online resource (xxii, 487 pages) :
|b illustrations (some color)
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| 336 |
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|a text
|b txt
|2 rdacontent
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| 337 |
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|a computer
|b c
|2 rdamedia
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| 338 |
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|a online resource
|b cr
|2 rdacarrier
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| 504 |
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|a Includes bibliographical references and index.
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| 520 |
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|a "This book covers molecular design and synthesis, as well as the development of smart molecular assemblies, for organic electronic systems. It identifies concepts that hold promise for successful development of organic/polymeric electronics with real-world applications. Unlike other books, this is not simply a compilation of current trends in supramolecular soft matter. The chapters, written by leading researchers, help readers understand and manipulate the electronic properties of supramolecular soft materials for use in organic electronic devices, such as photovoltaics and field effect transistors, some of the most desired materials for energy conservation"--Provided by publisher.
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| 520 |
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|a "This book covers molecular design and synthesis, as well as the development of smart molecular assemblies, for organic electronic systems"--Provided by publisher.
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| 505 |
0 |
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|6 880-01
|a Section I: Supramolecular Objects Towards Multi-Task Organic Materials. Supramolecular Materialization of Fullerene Assemblies / Sukumaran S Babu, Hidehiko Asanuma, Takashi Nakanishi -- Tuning Amphiphilicity of Building Blocks for Controlled Self-Assembly and Disassembly: A Way for Fabrication of Functional Supramolecular Materials / Huaping Xu, Xi Zhang -- Organic₆Inorganic Supramolecular Materials / Katsuhiko Ariga, Jonathan P Hill, Qingmin Ji -- Section II: Stimuli Responsive Dye Organized Soft Materials. Functional Materials from Supramolecular Azobenzene Dye Architectures / Charl F J Faul -- Stimuli-Responsive Supramolecular Dye Assemblies / Shiki Yagai -- Anion-Responsive Supramolecular Dye Chemistry / Hiromitsu Maeda -- Section III: Dimension Controlled Organic Frameworks. Polymeric Frameworks: Toward Porous Semiconductors / Jens Weber, Michael J Bojdys, Arne Thomas -- Two-Dimensional Semiconductive p-Electronic Frameworks / Donglin Jiang, Xuesong Ding, Jia Guo -- Polymer-Friendly Metal₆Organic Frameworks / Takashi Uemura -- Section IV: Recent Trends of Organic Radical Materials. Multidimensional Supramolecular Organizations Based on Polychlorotriphenyl-Methyl Radicals / V Mugnaini, M Mas-Torrent, I Ratera, C Rovira, J Veciana -- Photoswitching Property of Diarylethenes in Molecular Magnetism and Electronics / Kenji Matsuda, Kenji Higashiguchi -- Section V: Organogels and Polymer Assembly. Self-Oscillating Polymer Gels / Ryo Yoshida -- Self-Assembly of Conjugated Polymers and their Application to Biosensors / David Bilby, Jinsang Kim -- Section VI: Supramolecular Liquid Crystals. Advanced Systems of Supramolecular Liquid Crystals / Takuma Yasuda, Takashi Kato -- Supramolecular and Dendritic Liquid Crystals / Isabel M Saez, John W Goodby -- Photoresponsive Chiral Liquid Crystals / Ratheesh K Vijayaraghavan, Suresh Das -- Liquid Crystals Toward Soft Organic Semiconductors / Yo Shimizu -- Section VII: Supramolecular Composites Based on Carbon Nanotubes. CNT/Polymer Composite Materials / Tsuyohiko Fujigaya, Yasuhiko Tanaka, Naotoshi Nakashima -- Interaction of Carbon Nanotubes and Small Molecules / Sampath Srinivasan, Ayyappanpillai Ajayaghosh -- The Tuning of CNT Devices Using Self-Assembling Organic and Biological Molecules / Jeong-O Lee, Ju-Jin Kim -- Section VIII: Optoelectronics Based on Supramolecular Assemblies. Mimicking Photosynthesis with Fullerene-Based Systems / Juan Luis Delgado, Dirk M Guldi, Nazario Mart̕n -- Recent Trends in Supramolecular Photovoltaic Systems / Dario M Bassani -- Section IX: Future Perspective in Supramolecular Soft Materials. Commentary 1: What will be the Rosetta Stone for the Next-Generation Supramolecular Chemistry? -- Commentary 2: Supramolecular Chemistry in Materials Science -- Index.
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| 546 |
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|a English.
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| 650 |
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|a Supramolecular electrochemistry.
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| 650 |
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|a Molecular structure.
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| 650 |
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|a Molecular biology.
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| 650 |
|
7 |
|a molecular structure.
|2 aat
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| 650 |
|
7 |
|a molecular biology.
|2 aat
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| 650 |
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7 |
|a SCIENCE
|x Chemistry
|x Organic.
|2 bisacsh
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| 650 |
|
7 |
|a SCIENCE
|x Chemistry
|x Computational & Molecular Modeling.
|2 bisacsh
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| 650 |
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|a Molecular biology
|2 fast
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| 650 |
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7 |
|a Molecular structure
|2 fast
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| 650 |
|
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|a Supramolecular electrochemistry
|2 fast
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| 700 |
1 |
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|a Nakanishi, Takashi.
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| 758 |
|
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|i has work:
|a Supramolecular soft matter (Text)
|1 https://id.oclc.org/worldcat/entity/E39PCGkbBPyH7yq4T6qMqrHtDm
|4 https://id.oclc.org/worldcat/ontology/hasWork
|
| 776 |
0 |
8 |
|i Print version:
|z 9780470559741
|z 0470559748
|w (DLC) 2011010584
|
| 856 |
4 |
0 |
|u https://ebookcentral.proquest.com/lib/holycrosscollege-ebooks/detail.action?docID=697530
|y Click for online access
|
| 880 |
0 |
0 |
|6 505-01/(S
|g Machine generated contents note:
|g SECTION I
|t Supramolecular Objects Towards Multi-task Organic Materials --
|g 1.
|t Supramolecular Materialization Of Fullerene Assemblies /
|r Takashi Nakanishi --
|g 1.1.
|t Introduction --
|g 1.2.
|t Hydrophobic-Amphiphilic Concept --
|g 1.3.
|t Supramolecular Assemblies of C60 Bearing Aliphatic Chains --
|g 1.3.1.
|t Hierarchical Supramorphology --
|g 1.3.2.
|t Antiwetting Architectures --
|g 1.4.
|t Functions Originated from Three-Dimensional Flakelike Microparticles --
|g 1.4.1.
|t Supramolecular Molding Method --
|g 1.4.2.
|t Thermal Indicator for NIR-Induced Local Heating of Carbon Nanotube --
|g 1.5.
|t Photoconductive Soft Materials --
|g 1.5.1.
|t C6o-Rich Thermotropic Liquid Crystals --
|g 1.5.2.
|t Room Temperature Fullerene Liquids --
|g 1.6.
|t Conclusions --
|t References --
|g 2.
|t Tuning Amphiphilicity Of Building Blocks For Controlled Self-Assembly And Disassembly: A Way For Fabrication Of Functional Supramolecular Materials /
|r Xi Zhang --
|g 2.1.
|t Introduction --
|g 2.2.
|t Irreversible Methods to Tune the Amphiphilicity of Building Blocks --
|g 2.2.1.
|t Photo-Irradiated Irreversible Methods --
|g 2.2.2.
|t Redox Response --
|g 2.2.3.
|t pH-Stimuli Methods --
|g 2.3.
|t Reversible Stimuli-Responsive Methods --
|g 2.3.1.
|t Redox Switches --
|g 2.3.2.
|t Tuning the Amphiphilicity by Reversible Combination of Carbon Dioxide --
|g 2.3.3.
|t Photocontrolled Methods --
|g 2.4.
|t Supramolecular Methods --
|g 2.4.1.
|t Electrostatic Interaction --
|g 2.4.2.
|t Hydrogen Bonding Method --
|g 2.4.3.
|t Host-Guest Modulation Employing Cyclodextrin as Host --
|g 2.4.4.
|t Host-Guest Modulation Employing Cucurbituril as Host --
|g 2.4.5.
|t Charge-Transfer Interaction --
|g 2.5.
|t Conclusion and Outlook --
|t Acknowledgments --
|t References --
|g 3.
|t Organic-Inorganic Supramolecular Materials /
|r Qingmin Ji --
|g 3.1.
|t Introduction --
|g 3.2.
|t Film-Type Supramolecular Hybrids --
|g 3.3.
|t Endo-Type Mesoporous Supramolecular Hybrids --
|g 3.4.
|t Exo-Type Mesoporous Supramolecular Hybrids --
|g 3.5.
|t Conclusions --
|t Acknowledgment --
|t References --
|g SECTION II
|t Stimuli Responsive Dye Organized Soft Materials --
|g 4.
|t Functional Materials From Supramolecular Azobenzene Dye Architectures /
|r Chad F.J. Faul --
|g 4.1.
|t Introduction --
|g 4.2.
|t Azobenzene Dyes for Functional Materials --
|g 4.3.
|t Strategies for the Production of Functional Supramolecular Materials --
|g 4.4.
|t Ionic Self-Assembly --
|g 4.4.1.
|t Polyelectrolyte-Based Materials --
|g 4.4.2.
|t Oligoelectrolyte-Based Materials --
|g 4.5.
|t Hydrogen-Bonded Polymeric Assemblies --
|g 4.5.1.
|t Polymer-Based Materials --
|g 4.6.
|t Summary and Conclusions --
|t References --
|g 5.
|t Stimuli-Responsive Supramolecular Dye Assemblies /
|r Shiki Yagai --
|g 5.1.
|t Introduction --
|g 5.2.
|t Supramolecular Dye Assemblies with Stimuli-Responsive Optical Properties --
|g 5.3.
|t Supramolecular Dye Assemblies with Stimuli-Responsive Nanostructures --
|g 5.4.
|t Conclusions --
|t References --
|g 6.
|t Anion-Responsive Supramolecular Dye Chemistry /
|r Hiromitsu Maeda --
|g 6.1.
|t Introduction --
|g 6.2.
|t Hydrogen-Bonding-Based Anion-Responsive Supramolecular Gels --
|g 6.3.
|t Metal-Coordinated Gels Responsive to Anions --
|g 6.4.
|t Pyrrole-Based, Anion-Responsive π-Conjugated Molecules that form Supramolecular Assemblies --
|g 6.5.
|t Charge-By-Charge Assemblies from Anion-Responsive Supramolecular Gels --
|g 6.6.
|t Conclusions --
|t References --
|g SECTION III
|t Dimension Controlled Organic Frameworks --
|g 7.
|t Polymeric Frameworks: Toward Porous Semiconductors /
|r Arne Thomas --
|g 7.1.
|t Introduction --
|g 7.2.
|t General Synthetic and Analytical Methods for Porous Polymers --
|g 7.2.1.
|t Synthetic Routes toward Mesoporous Polymers --
|g 7.2.2.
|t Synthetic Schemes for Microporous Polymers --
|g 7.2.3.
|t Analysis of Porosity in Porous Polymers --
|g 7.3.
|t Porous π-Conjugated Polymers --
|g 7.3.1.
|t From 3D Semiconducting Molecules to Porous Polymer Networks --
|g 7.3.2.
|t Conjugated Microporous Polymers --
|g 7.3.3.
|t π-Conjugated Covalent Organic Frameworks --
|g 7.3.4.
|t Porous π-Conjugated Polymers Prepared via Hard or Soft Templating --
|g 7.4.
|t Porous Graphitic Carbon Nitride Semiconductors --
|g 7.4.1.
|t Graphitic Carbon Nitride --
|g 7.4.2.
|t Porous Graphitic Carbon Nitrides by Hard Templating --
|g 7.4.3.
|t Carbon Nitride-Based Semiconductor in Photocatalysis --
|g 7.5.
|t Conclusion --
|t References --
|g 8.
|t Two-Dimensional Semiconductive π -Electronic Frameworks /
|r Jia Guo --
|g 8.1.
|t Introduction --
|g 8.2.
|t Two-Dimensional Polymers on Metal Surfaces --
|g 8.3.
|t Two-Dimensional Polymers with Covalent Organic Frameworks --
|g 8.3.1.
|t Topological Design of 2D Porous Materials --
|g 8.3.2.
|t Control of Pore Size and Parameters --
|g 8.3.3.
|t Two-Dimensional COFs for Hydrogen Storage --
|g 8.3.4.
|t Two-Dimensional COFs for Other Gas Uptake --
|g 8.3.5.
|t Semiconducting Blue Luminescence 2D Polymers --
|g 8.3.6.
|t Photoconductive 2D Polymers --
|g 8.4.
|t Conclusions --
|t References --
|g 9.
|t Polymer-Friendly Metal-Organic Frameworks /
|r Takashi Uemura --
|g 9.1.
|t Introduction --
|g 9.2.
|t Characteristic Features of MOFs --
|g 9.2.1.
|t Regularity --
|g 9.2.2.
|t Pore Size and Shape --
|g 9.2.3.
|t Pore Surface Functionality --
|g 9.2.4.
|t Flexibility --
|g 9.3.
|t Polymer Synthesis in One-Dimensional Channels of MOFs --
|g 9.3.1.
|t Radical Polymerization of Vinyl Monomers --
|g 9.3.2.
|t Catalytic Polymerization of Substituted Acetylenes --
|g 9.4.
|t Polymer Synthesis in Higher Dimensional Channels of MOFs --
|g 9.4.1.
|t Preparation of Two-Dimensional Layered Polymers --
|g 9.4.2.
|t Preparation of Three-Dimensional Porous Polymers --
|g 9.5.
|t Polymer-MOF Composites --
|g 9.6.
|t Summary --
|t References --
|g SECTION IV
|t Recent Trends of Organic Radical Materials --
|g 10.
|t Multidimensional Supramolecular Organizations Based On Polychlorotriphenyl-Methyl Radicals /
|r J.
|
| 903 |
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|a EBC-AC
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| 994 |
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|a 92
|b HCD
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