Synergy in Supramolecular Chemistry
Herausgeber: Nabeshima, Tatsuya
Synergy in Supramolecular Chemistry
Herausgeber: Nabeshima, Tatsuya
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Cooperative and synergistic chemical events have attracted significant attention from many researchers engaged in organic chemistry, inorganic chemistry, biological chemistry, polymer chemistry, medicinal chemistry, and other related materials sciences. Synergistic supramolecular systems could be developed to amplify the functions and integratio
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Cooperative and synergistic chemical events have attracted significant attention from many researchers engaged in organic chemistry, inorganic chemistry, biological chemistry, polymer chemistry, medicinal chemistry, and other related materials sciences. Synergistic supramolecular systems could be developed to amplify the functions and integratio
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 350
- Erscheinungstermin: 13. Dezember 2021
- Englisch
- Abmessung: 234mm x 156mm x 19mm
- Gewicht: 490g
- ISBN-13: 9781032236452
- ISBN-10: 1032236450
- Artikelnr.: 62951702
- Verlag: CRC Press
- Seitenzahl: 350
- Erscheinungstermin: 13. Dezember 2021
- Englisch
- Abmessung: 234mm x 156mm x 19mm
- Gewicht: 490g
- ISBN-13: 9781032236452
- ISBN-10: 1032236450
- Artikelnr.: 62951702
Tatsuya Nabeshima was born in 1955 in Kumamoto, Japan. He received his B.S. (1979) from The University of Tokyo, M.S. (1981) from the University of Tsukuba, and Ph. D. degrees (1985) from Kyoto University. In 1985, he joined Stanford University as a postdoctoral fellow. After joining the University of Tsukuba as a research associate in 1986, he became Assistant Professor in 1987. He moved to Gunma University as an assistant professor in 1989 and was promoted to Associate Professor in 1991. He returned to the University of Tsukuba as an associate professor in 1995, and was promoted to Professor in 1999. In 2004 he was a Professor of the Graduate School of Pure and Applied Sciences, University of Tsukuba, and from 2010 to 2012 he was Director of Tsukuba Research Center for Interdisciplinary Materials Science (TIMS), University of Tsukuba. His research interests cover artificial receptors, molecular recognition, artificial allosteric and responding molecular systems, and organic-inorganic supramolecular systems. He received The Chemical Society of Japan Award for Creative Work in 2008.
Synergy and Cooperativity in Multi-metal Supramolecular Systems.
Hierarchically Assembled Titanium Helicates. Supramolecular Hosts and
Catalysts Formed by Self-assembly of Multinuclear Zinc Complexes in Aqueous
Solution. Supramolecular Assemblies Based on Interionic Interactions.
Supramolecular Synergy in the Formation and Function of Guanosine
Quadruplexes. On-Surface Chirality in Porous Self-Assembled Monolayers at
Liquid-Solid Interface. Polymeric Architectures Formed by Supramolecular
Interactions. Synergy in Self-Assembled Molecular Capsules. Synergistic
Effects in Foldamer Design and Properties. Salt Templated Syntheses of
Interlocked Molecules. Stabilization of Reactive Species in Supramolecular
Architectures. Supramolecular Catalyst Based on Cyclodextrin Derivatives.
Supramolecular Function of Cyclodextrin Complex Sensors for Ion and
Molecule Recognition in Water. Cooperativity in Complexation of Dynamic
Terephthalamide Hosts for the Design of Chirality-Sensing Systems.
Lanthanides Driven Self-Assembly Formation of Luminescent Supramolecular
Structures. Supramolecular Chemistry Strategies for Naked-Eye Detection and
Sensing. Synergisms in Lanthanide-Based Supramolecular Luminescent Assays
and Sensors. Chemo-Sensitive Soft Matters. From Fundamental Aspects of
Binding Properties in Host-Guest Complexations to Those beyond the
Limitation Due to the Law of Mass Action.
Hierarchically Assembled Titanium Helicates. Supramolecular Hosts and
Catalysts Formed by Self-assembly of Multinuclear Zinc Complexes in Aqueous
Solution. Supramolecular Assemblies Based on Interionic Interactions.
Supramolecular Synergy in the Formation and Function of Guanosine
Quadruplexes. On-Surface Chirality in Porous Self-Assembled Monolayers at
Liquid-Solid Interface. Polymeric Architectures Formed by Supramolecular
Interactions. Synergy in Self-Assembled Molecular Capsules. Synergistic
Effects in Foldamer Design and Properties. Salt Templated Syntheses of
Interlocked Molecules. Stabilization of Reactive Species in Supramolecular
Architectures. Supramolecular Catalyst Based on Cyclodextrin Derivatives.
Supramolecular Function of Cyclodextrin Complex Sensors for Ion and
Molecule Recognition in Water. Cooperativity in Complexation of Dynamic
Terephthalamide Hosts for the Design of Chirality-Sensing Systems.
Lanthanides Driven Self-Assembly Formation of Luminescent Supramolecular
Structures. Supramolecular Chemistry Strategies for Naked-Eye Detection and
Sensing. Synergisms in Lanthanide-Based Supramolecular Luminescent Assays
and Sensors. Chemo-Sensitive Soft Matters. From Fundamental Aspects of
Binding Properties in Host-Guest Complexations to Those beyond the
Limitation Due to the Law of Mass Action.
Synergy and Cooperativity in Multi-metal Supramolecular Systems.
Hierarchically Assembled Titanium Helicates. Supramolecular Hosts and
Catalysts Formed by Self-assembly of Multinuclear Zinc Complexes in Aqueous
Solution. Supramolecular Assemblies Based on Interionic Interactions.
Supramolecular Synergy in the Formation and Function of Guanosine
Quadruplexes. On-Surface Chirality in Porous Self-Assembled Monolayers at
Liquid-Solid Interface. Polymeric Architectures Formed by Supramolecular
Interactions. Synergy in Self-Assembled Molecular Capsules. Synergistic
Effects in Foldamer Design and Properties. Salt Templated Syntheses of
Interlocked Molecules. Stabilization of Reactive Species in Supramolecular
Architectures. Supramolecular Catalyst Based on Cyclodextrin Derivatives.
Supramolecular Function of Cyclodextrin Complex Sensors for Ion and
Molecule Recognition in Water. Cooperativity in Complexation of Dynamic
Terephthalamide Hosts for the Design of Chirality-Sensing Systems.
Lanthanides Driven Self-Assembly Formation of Luminescent Supramolecular
Structures. Supramolecular Chemistry Strategies for Naked-Eye Detection and
Sensing. Synergisms in Lanthanide-Based Supramolecular Luminescent Assays
and Sensors. Chemo-Sensitive Soft Matters. From Fundamental Aspects of
Binding Properties in Host-Guest Complexations to Those beyond the
Limitation Due to the Law of Mass Action.
Hierarchically Assembled Titanium Helicates. Supramolecular Hosts and
Catalysts Formed by Self-assembly of Multinuclear Zinc Complexes in Aqueous
Solution. Supramolecular Assemblies Based on Interionic Interactions.
Supramolecular Synergy in the Formation and Function of Guanosine
Quadruplexes. On-Surface Chirality in Porous Self-Assembled Monolayers at
Liquid-Solid Interface. Polymeric Architectures Formed by Supramolecular
Interactions. Synergy in Self-Assembled Molecular Capsules. Synergistic
Effects in Foldamer Design and Properties. Salt Templated Syntheses of
Interlocked Molecules. Stabilization of Reactive Species in Supramolecular
Architectures. Supramolecular Catalyst Based on Cyclodextrin Derivatives.
Supramolecular Function of Cyclodextrin Complex Sensors for Ion and
Molecule Recognition in Water. Cooperativity in Complexation of Dynamic
Terephthalamide Hosts for the Design of Chirality-Sensing Systems.
Lanthanides Driven Self-Assembly Formation of Luminescent Supramolecular
Structures. Supramolecular Chemistry Strategies for Naked-Eye Detection and
Sensing. Synergisms in Lanthanide-Based Supramolecular Luminescent Assays
and Sensors. Chemo-Sensitive Soft Matters. From Fundamental Aspects of
Binding Properties in Host-Guest Complexations to Those beyond the
Limitation Due to the Law of Mass Action.