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Title:
Stimulating Concepts in Chemistry |
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Division: General Organic Chem / John Wiely & Son / 英文版 |
Author/Editor: Fritz Vögtle (Editor), J. Fraser Stoddart (Editor), Masakatsu Shi Star:  |
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ISBN: 3527299785 |
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Introduce Date: 2006年06月28日15:23 , Release Date: 2006年06月28日16:04 |
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Introducer: Reuben , Rate: 20/506 |
| Format: pdf(editorial) Download |
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| No comment is available! |
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| Description: |
Fresh ideas have always been a necessary ingredient for progress in chemistry. Without a continuous supply of stimulating ideas from creative researchers, there would be no new insights into the subject. But what are some of the ideas that pervade modern chemistry? The answer to this question is to be found in "Stimulating Concepts in Chemistry". In a collection of 24 essays, a group of leading researchers provides an overview of the most recent developments in their fields.
Readers can find out about modern concepts in chemistry such as self-assembly, nanochemistry, and molecular machines. Moreover, many spectacular advances have been achieved from the fusion of chemistry with life and materials science - a development which is illustrated by contributions on enzyme mimics, molecular wires, and chemical sensors. Further, the essayists write about new nanomaterials, efficient methods in synthesis, and big biomolecules - indeed, many of the topics that have dominated some of the recent discussions in chemistry.
This outstanding text makes use of a special layout to reflect the editors' aim of presenting concepts in the form of essays. Thus, the book is not merely another source of knowledge but is intended to stimulate readers to develop their own ideas and concepts.
This format should help to make the book interesting to a wide range of scientists. Students of chemistry will benefit from the different style of presentation of their subject, while researchers in industry and academia will welcome the exciting way in which some of the most challenging concepts in modern chemistry are presented.
"Stimulating indeed, this book is an invaluable resource for the chemistry community as well as for scientists in a wide range of disciplines and across different levels of education...thought-provoking and very, very informative." (Journal of the American Chemical Society, Vol. 123, No. 30, 2001)
Table of Contents:
Lewis Acid Catalysis in Aqueous Media (S. Kobayashi & K. Manabe).
Supercritical Fluids for Organic Synthesis (R. Noyori & T. Ikariya).
Fluorous Techniques for the Synthesis of Organic Molecules: A Unified Strategy for Reaction and Separation (D. Curran).
Domino Reaction in Organic Synthesis: An Approach to Efficiency, Elegance, Ecological Benefit, Economic Advantage and Preservation of Our Resources in Chemical Transformations (L. Tietze & F. Haunert).
Combinatorial Libraries for Drug Development (A. Lee, et al.).
Theozymes and Catalyst Design (D. Tantillo & K. Houk).
Enantioselective Catalysis using Sterically and Electronically Unsymmetrical Ligands (A. Humphries & A. Pfaltz).
Asymmetric Two-Center Catalysis (M. Shibasaki).
Asymmetric Phase Transfer Catalysis (T. Shioiri & S. Arai).
Asymmetric Catalysis in Target-Oriented Synthesis (A. Hoveyda).
From Fullerenes to Novel Carbon Allotropes: Exciting Prospects for Organic Synthesis (Y. Rubin & F. Diederich).
Dendritic Architectures (S. Gestermann, et al.).
Chemical Encapsulation in Self-Assembling Capsules (C. Schalley & J. Rebek).
Slippage and Constrictive Binding (M. Fyfe, et al.).
Crystal Engineering with Soft and Topologically Adaptable Molecular Host Frameworks (K. Holman & M. Ward).
Molecular Wires and Devices (J. Tour).
Molecular-Level Devices and Machines (V. Balzani, et al.).
Electron and Energy Transfer (M. Paddon-Row).
The Supramolecular Synthon in Crystal Engineering (G. Desiraju).
Luminescent Logic and Sensing (A. de Silva, et al.).
Nanochemistry - Architecture at the Mesoscale (S. Becker & K. Müllen).
Enzyme Mimics (A. Kirby).
Asymmetric Two-Enzyme Inhibitors (K. Kreutter & C.-H. Wong).
Organic Synthesis and Cell Biology (D. Kadereit, et al.).
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