Supramolecular chemistry refers to the branch of chemistry concerning chemical systems composed of a discrete number of molecules.
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Supramolecular chemistry refers to the branch of chemistry concerning chemical systems composed of a discrete number of molecules.
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Important concepts advanced by supramolecular chemistry include molecular self-assembly, molecular folding, molecular recognition, host–guest chemistry, mechanically-interlocked molecular architectures, and dynamic covalent chemistry.
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Importance of supramolecular chemistry was established by the 1987 Nobel Prize for Chemistry which was awarded to Donald J Cram, Jean-Marie Lehn, and Charles J Pedersen in recognition of their work in this area.
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Supramolecular chemistry complexes are formed by non-covalent interactions between two chemical moieties, which can be described as an host and a guest.
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Supramolecular chemistry has found many applications, in particular molecular self-assembly processes have been applied to the development of new materials.
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Major application of supramolecular chemistry is the design and understanding of catalysts and catalysis.
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Supramolecular chemistry biomaterials afford a number of modular and generalizable platforms with tunable mechanical, chemical and biological properties.
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Supramolecular chemistry approach has been used extensively to create artificial ion channels for the transport of sodium and potassium ions into and out of cells.
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Supramolecular chemistry is important to the development of new pharmaceutical therapies by understanding the interactions at a drug binding site.
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The area of drug delivery has made critical advances as a result of supramolecular chemistry providing encapsulation and targeted release mechanisms.
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Supramolecular chemistry has been used to demonstrate computation functions on a molecular scale.
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