Molecular recognition : receptors for molecular guests
Author(s)
Bibliographic Information
Molecular recognition : receptors for molecular guests
(Comprehensive supramolecular chemistry / executive editors, Jerry L. Atwood ... [et al.] ; chairman of the editorial board, Jean-Marie Lehn, v. 2)
Pergamon, 1996
1st ed
- : set
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Available at / 59 libraries
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Graduate School of Pharmaceutical Sciences, Pharmaceutical Sciences Library, University of Tokyo図書
431.9:C85:25810217116
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Includes bibliographical references and indexes
Description and Table of Contents
- Volume
-
: set ISBN 9780080406107
Description
Comprehensive Supramolecular Chemistry covers for the first time in eleven detailed volumes the exciting inter- and multidisciplinary area of modern supramolecular chemistry. This subject, which has now reached an astonishing diversity and complexity, has developed at a remarkably rapid pace following the initial discoveries of crown ethers and cryptands in the late sixties.The numerous references, including many recent citations, constitute an unrivalled in-depth source for direct entry to the widespread primary literature on any aspect of this most highly topical area. The many carefully selected illustrations and instructive schematic representations make the chapters easily readable.
Table of Contents
Volume 1 - Molecular Recognition: Receptors for Cationic Guests.
Volume 2 - Molecular Recognition: Receptors for Molecular Guests.
Volume 3 - Cyclodextrins.
Volume 4 - Supramolecular Reactivity and Transport: Bioorganic Systems.
Volume 5 - Supramolecular Reactivity and Transport: Bioinorganic Systems.
Volume 6 - Solid-State Supramolecular Chemistry: Crystal Engineering.
Volume 7 - Solid-State Supramolecular Chemistry: Two- and Three-Dimensional Inorganic Networks.
Volume 8 - Physical Methods in Supramolecular Chemistry.
Volume 9 - Templating Self-Assembly and Self-Organization.
Voulme 10 - Supramolecular Technology.
Volume 11 - Cumulative Index.
- Volume
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ISBN 9780080427140
Description
This second volume, containing 18 chapters, is devoted to the design, synthesis and complexing
ability for molecular guest substances of the presently known synthetic host compounds.
Uncharged organic molecules, cations and anions are the targets to be selectively complexed,
imprisoned, transported and extracted. The first chapters provide a more general introduction
into macrocycle synthesis and well known examples of complementary host/guest structures as
well as into the supramolecular binding types. The following chapters consequently give
detailed insight into the hitherto known synthetic receptor substances of all kinds (including
crown compounds, calixarenes, carcerands, siderophores etc) and their selective interaction with
fitting molecular guest substrates.
This volume contains many structural and host/guest illustrations including coloured
illustrations, and also refers to other volumes of this series with regard to, for example, template
synthesis, catenanes, analytical applications etc.
Table of Contents
Introduction and historical perspective (F. Voegtle, E. Weber).
Some general synthetic strategies towards macrocyclic systems (J. Breitenbach, J. Boosfeld, F. Voegtle).
Receptors for organic guest molecules: general principles (H.-J. Schneider, A. K. Mohammad-Ali).
Calixarenes and related hosts (R. Ungaro, A. Pochini). Well-defined inclusion cavities for structure discrimination of organic guests (K. Koga, K. Odashima). Cyclophane hosts: binding of lipophilic and cationic guests (D.A. Dougherty). Cyclophane hosts: endoacidic, endobasic and endolipophilic large cavities (F. Voegtle, C. Seel, P.-M. Windscheif). Cyclophane hosts for quinone guests (C.A. Hunter). Cyclophane hosts: binding of polyols and related guests (Y. Aoyama). The role of the cavity in the design of high-efficiency hosts (B.J. Whitlock, H.W. Whitlock). Cryptophanes (A. Collet). Carcerands and hemicarcerands: hosts that imprison molecular guests (E. Maverick, D.J. Cram).
Large water-soluble cavities (Y. Murakami, O. Hayashida). Hydrogen-bonding receptors: open-chain catalytic systems (A. Bell, E. Anslyn). Cucurbituril (W.L. Mock). Simultaneous binding of cations and neutral molecules (W. Verboom, D.N. Reinhoudt). From chloride katapinates to trinucleotide complexes: developments in molecular recognition of anionic species (C. Seel, J. de Mendoza). Simultaneous binding of cations and anions (M.T. Reetz).
by "Nielsen BookData"