Engineering organic macrocycles and cages: Versatile bonding approaches

Sheng Li Huang; Guo Xin Jin; He Kuan Luo; T. S.Andy Hor

doi:10.1002/asia.201402634

Engineering organic macrocycles and cages: Versatile bonding approaches

Sheng Li Huang, Guo Xin Jin, He Kuan Luo^*, T. S.Andy Hor

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

47 Citations (Scopus)

Abstract

(Chemical Equation Presented) The emergence of supramolecular chemistry has led to the discovery of a rising number of macrocycles and cages with a range of functionalities. Most of these supramolecular aggregates are metal coordination networks, whereas pure organic assemblies are less developed. Organic macrocycles and cages have the advantages of chemical robustness, processability in organic solvents, and suitability for pilot-scale applications. They are constructed primarily from covalent bonds, with irreversible and reversible bond types. We herein highlight the use of different versatile bonding approaches in engineering these soft materials, as well as their emerging applications, such as gas storage, thin films, liquid crystals, and catalysis.

Original language	English
Pages (from-to)	24-42
Number of pages	19
Journal	Chemistry - An Asian Journal
Volume	10
Issue number	1
DOIs	https://doi.org/10.1002/asia.201402634
Publication status	Published - 1 Jan 2015
Externally published	Yes

Keywords

Cage compounds
Discrete compound
Macrocycles
Soft material
Supramolecular chemistry

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10.1002/asia.201402634

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abstract = "(Chemical Equation Presented) The emergence of supramolecular chemistry has led to the discovery of a rising number of macrocycles and cages with a range of functionalities. Most of these supramolecular aggregates are metal coordination networks, whereas pure organic assemblies are less developed. Organic macrocycles and cages have the advantages of chemical robustness, processability in organic solvents, and suitability for pilot-scale applications. They are constructed primarily from covalent bonds, with irreversible and reversible bond types. We herein highlight the use of different versatile bonding approaches in engineering these soft materials, as well as their emerging applications, such as gas storage, thin films, liquid crystals, and catalysis.",

keywords = "Cage compounds, Discrete compound, Macrocycles, Soft material, Supramolecular chemistry",

author = "Huang, \{Sheng Li\} and Jin, \{Guo Xin\} and Luo, \{He Kuan\} and Hor, \{T. S.Andy\}",

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T2 - Versatile bonding approaches

AU - Huang, Sheng Li

AU - Jin, Guo Xin

AU - Luo, He Kuan

AU - Hor, T. S.Andy

PY - 2015/1/1

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N2 - (Chemical Equation Presented) The emergence of supramolecular chemistry has led to the discovery of a rising number of macrocycles and cages with a range of functionalities. Most of these supramolecular aggregates are metal coordination networks, whereas pure organic assemblies are less developed. Organic macrocycles and cages have the advantages of chemical robustness, processability in organic solvents, and suitability for pilot-scale applications. They are constructed primarily from covalent bonds, with irreversible and reversible bond types. We herein highlight the use of different versatile bonding approaches in engineering these soft materials, as well as their emerging applications, such as gas storage, thin films, liquid crystals, and catalysis.

AB - (Chemical Equation Presented) The emergence of supramolecular chemistry has led to the discovery of a rising number of macrocycles and cages with a range of functionalities. Most of these supramolecular aggregates are metal coordination networks, whereas pure organic assemblies are less developed. Organic macrocycles and cages have the advantages of chemical robustness, processability in organic solvents, and suitability for pilot-scale applications. They are constructed primarily from covalent bonds, with irreversible and reversible bond types. We herein highlight the use of different versatile bonding approaches in engineering these soft materials, as well as their emerging applications, such as gas storage, thin films, liquid crystals, and catalysis.

KW - Cage compounds

KW - Discrete compound

KW - Macrocycles

KW - Soft material

KW - Supramolecular chemistry

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DO - 10.1002/asia.201402634

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JF - Chemistry - An Asian Journal

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Engineering organic macrocycles and cages: Versatile bonding approaches

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Keywords

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