Sunhong Park scite author profile

Macrocyclic ligands typically show high selectivity for specific metal ions and small molecules, and these features make such molecules attractive candidates for nanoscale chemical sensing applications. Crown ethers are macrocyclic structures with polyether linkages where the oxygen donors are often separated by an ethylene unit (-O-CH(2)-CH(2)-O-). Because the oxygen lone pairs in crown-type macrocycles are directed inward, the preorganized macrocyclic cavity tends to form complexes where metals coordinate inside the cavity (endo-coordination). However, sulfur-containing macrocycles often demonstrate metal coordination outside of the cavity (exo-coordination). This coordination behavior results from the different torsion arrangements adopted by the X-CH(2)-CH(2)-X atom sequence (X = O, gauche; X = S, anti) in these molecules. Exo-coordination is synthetically attractive because it would provide a means of connecting macrocyclic building blocks in diverse arrangements. In fact, exo-coordination could allow the construction of more elaborate network assemblies than are possible using conventional endocyclic coordination (which gives metal-in-cavity products). Exo-coordination can also serve as a tool for crystal engineering through the use of diverse controlling factors. Although challenges remain in the development of exo-coordination-based synthetic approaches and, in particular, for the architectural control of supramolecular coordination platforms, we have established several strategies for the rational synthesis of new metallosupramolecules. In this Account, we describe our recent studies of the assembly of metallosupramolecules and coordination polymers based on sulfur-containing macrocycles that employ simple and versatile exo-coordination procedures. Initially, we focus on the unusual topological products such as sandwich (1:2, metal-to-ligand), club sandwich (2:3), and cyclic oligomeric complexes as discrete network systems. The primary structures we achieve in these networked macrocycles are one to three dimensional coordination polymers based on homo- and heteronuclear metal systems. Using crystal engineering methods, we have also investigated variation in the donors, interdonor distances, ligand isomer structures, and the effect of counter anions on the chemical and physical properties of the products. Understanding the relationship between structure and function in these exo-coordination products is an important step in the design of these new supramolecules for practical applications. We investigated the photophysical properties of the exocyclic complexes and a chromogenic macrocycle, which exhibited cation-selective and anion-controlled color change depending on an exo- or endo- ligand binding mode. Overall, we suggest that the exocyclic coordination behavior provides a versatile strategy for the preparation of new molecular networks and materials.

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Growth of homoepitaxial ZnO film on ZnO nanorods and light emitting diode applications

Park

2007

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Vertically aligned ZnO nanorod arrays with a diameter of 40–150 nm were fabricated on Al2O3 substrates with and without GaN interlayers, and consequently covered with a ZnO film in situ by a catalyst-free metal–organic vapour phase epitaxy method. X-ray diffraction and transmission electron microscopy measurements demonstrated that the ZnO film/nanorods hybrid structures had a well-ordered wurtzite structure with no lattice mismatch between the film and nanorods, and that the film was homoepitaxially grown horizontally as well as vertically on the pre-grown nanorods. From n-ZnO film/nanorods/p-GaN heterojunctions, we observed a blue light emission with a wavelength of about 440 nm.

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The Characteristics of CNT/Cement Composites with Acid-Treated MWCNTs

Kang

Seo

Park³

2015

Advances in Materials Science and Engineering

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This study investigated the effects of acid-treated MWCNTs on the workability, compressive and tensile strength, porosity, and microstructure of CNT/cement composites. While workability decreased with acid treatment of CNTs, compressive and tensile strength improved significantly. Strength was also enhanced by using acid-treated CNTs alone, compared to using a surfactant with acid-treated CNTs. MIP analysis revealed that the porosity decreases from using acid-treated CNTs and that using acid-treated CNTs without a surfactant was more effective in reducing the size of micropores. A SEM analysis revealed improved CNT dispersion and dense hydration products in cement composites containing acid-treated CNTs. Ultimately, the use of acid-treated CNTs improved the CNT dispersion within CNT/cement composites, enhanced the pore structure, and formed denser hydration products around CNTs.

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Molecular botanical garden: assembly of supramolecular silver(I) and mercury(II) complexes of NS₂-donor macrocycles with flower-, leaf- and tree-shaped structures

Park

Lee

et al. 2009

CrystEngComm

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Ligand- and Anion-Directed Assembly of Exo-Coordinated Mercury(II) Halide Complexes with O₂S₂-Donor Macrocycles

et al. 2008

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Sunhong Park

Supramolecular Networking of Macrocycles Based on Exo-Coordination: From Discrete to Continuous Frameworks

Growth of homoepitaxial ZnO film on ZnO nanorods and light emitting diode applications

The Characteristics of CNT/Cement Composites with Acid-Treated MWCNTs

Molecular botanical garden: assembly of supramolecular silver(I) and mercury(II) complexes of NS₂-donor macrocycles with flower-, leaf- and tree-shaped structures

Ligand- and Anion-Directed Assembly of Exo-Coordinated Mercury(II) Halide Complexes with O₂S₂-Donor Macrocycles

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Sunhong Park

Supramolecular Networking of Macrocycles Based on Exo-Coordination: From Discrete to Continuous Frameworks

Growth of homoepitaxial ZnO film on ZnO nanorods and light emitting diode applications

The Characteristics of CNT/Cement Composites with Acid-Treated MWCNTs

Molecular botanical garden: assembly of supramolecular silver(I) and mercury(II) complexes of NS2-donor macrocycles with flower-, leaf- and tree-shaped structures

Ligand- and Anion-Directed Assembly of Exo-Coordinated Mercury(II) Halide Complexes with O2S2-Donor Macrocycles

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Molecular botanical garden: assembly of supramolecular silver(I) and mercury(II) complexes of NS₂-donor macrocycles with flower-, leaf- and tree-shaped structures

Ligand- and Anion-Directed Assembly of Exo-Coordinated Mercury(II) Halide Complexes with O₂S₂-Donor Macrocycles