Description |
1 online resource |
Contents |
Front Matter -- Colour Plates -- The CH/p Hydrogen Bond: Implication in Crystal Engineering / Motohiro Nishio, Yoji Umezawa, Hiroko Suezawa, Sei Tsuboyama -- New Aspects of Aromatic p⁵p and C?H⁵p Interactions in Crystal Engineering / Roger Bishop -- CH₆p and p₆p Interactions as Contributors to the Guest Binding in Reversible Inclusion and Encapsulation Complexes / Pablo Ballester, Shannon M Biros -- A Rudimentary Method for Classification of p⁵p Packing Motifs for Aromatic Molecules / Leigh Loots, Leonard J Barbour -- Conformational Flexibility and Selectivity in Host₆Guest Systems / Nikoletta B B̀thori, Luigi R Nassimbeni -- Organic p-Radicals in the Solid-State: From Localised to Delocalised s-Bonding / Marc Fourmigǔ -- Arene₆Perfluoroarene Interactions in Coordination Architectures / Akiko Hori -- Halogen⁵p Interactions as Important Contributors to Binding Affinity in Medicinal Chemistry / Hans Matter, Marc Nazař, Stefan Gussregen -- Fuzzy Electron-Density Fragments as Building Blocks in Crystal-Engineering Design / Paul G Mezey -- Noncovalent Interactions of p-Systems in Crystal Structures of Transition-Metal Complexes / Goran V Janjic, Sneana D Zaric -- Intermolecular C?H⁵p(Chelate) Interactions ₆ Prevalence in the Crystal Structures of Metal 1,1-Dithiolates / Julio Zukerman-Schpector, Edward R T Tiekink -- Supramolecular Aggregation Patterns and Stereochemical Consequences of Tellurium(Lone Pair)⁵p(Aryl) Interactions / Ionel Haiduc, Edward R T Tiekink, Julio Zukerman-Schpector -- Supramolecular Assembly of Silver(I) Complexes with Argentophilic and Silver⁵Carbon Interactions / Thomas C W Mak, Liang Zhao, Xiao-Li Zhao -- Index |
Summary |
Crystal engineers aim to control the way molecules aggregate in the crystalline phase and are therefore concerned with crystal structure prediction, polymorphism, and discovering the relative importance of different types of intermolecular forces and their influence on molecular structure. In order to design crystal structures, knowledge of the types, strengths, and nature of possible intermolecular interactions is essential. Non-covalent interactions involving p-systems is a theme that is under extensive investigation as these interactions can be inductors for the assembly of a vast array of supramolecular architectures. The Importance of Pi-Interactions in Crystal Engineeringcovers topics ranging from the identification of interactions involving p-systems, their impact on molecular and crystal structure in both organic and metallorganic systems, and how these interactions might be exploited in the design of new materials. Specialist reviews are written by internationally recognized researchers drawn from both academia and industry. The Importance of Pi-Interactions in Crystal Engineeringprovides an essential overview of this important aspect of crystal engineering for both entrants to the field as well as established practitioners, and for those working in crystallography, medicinal and pharmaceutical sciences, solid-state chemistry, physical chemistry, materials and nanotechnology |
Bibliography |
Includes bibliographical references and index |
Notes |
Print version record |
Subject |
Molecular crystals.
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Supramolecular organometallic chemistry.
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Crystal growth.
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SCIENCE -- Physics -- Crystallography.
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Crystal growth.
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Molecular crystals.
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Supramolecular organometallic chemistry.
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Form |
Electronic book
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Author |
Tiekink, Edward R. T
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Zukerman-Schpector, Júlio
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ISBN |
9781119945888 |
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1119945887 |
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9781119945895 |
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1119945895 |
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9781280591525 |
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1280591528 |
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9781119940920 |
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1119940923 |
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9786613621351 |
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6613621358 |
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