Organization of Zeolite Microcrystals for Production of Functional Materials

Yoon, Kyung Byung

doi:10.1021/ar000119c

Cited by 204 publications

(153 citation statements)

References 73 publications

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“…Other groups focused on improving coating properties via bonding particles on a substrate [18][19][20]. These procedures led to a successful covalent linking between particles or particles and the substrate surface.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of the Mechanical Properties of Nanoparticulate Thin Coatings via Surface Modification and Cross‐Linking Additive

et al. 2017

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The application of modified Al 2 O 3 nanoparticles for thin coatings is investigated to improve especially the mechanical characteristics by cross-linking the particles using an additive, together with the formulation parameters as well as the crosslinking kinetics. In general, the experiments demonstrate that the mechanical properties, like hardness and scratch resistance, can be enhanced via particle surface modification in combination with a cross-linking additive. Specifically, the optimal additive concentration was determined in order to obtain coatings with improved mechanical and constant optical properties. These results were related to the structure formation and cross-linking behavior. Mechanisms were identified for this series of experiments to explain how the particles bond with each other and how the coating structure is formed by using different additive ratios.

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Section: Introductionmentioning

confidence: 99%

Enhancement of the Mechanical Properties of Nanoparticulate Thin Coatings via Surface Modification and Cross‐Linking Additive

et al. 2017

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“…[10,11] Orderly arrayed channels, high pore volume and highly crystalline walls in their structures make them suitable for potential applications in the fields of low-k materials, [12,13] catalysis, [14,15] separation and adsorption, [16][17][18] and optics. [19][20][21] However, very limited works were reported on the synthesis of super hydrophilic AR zeolite coatings.…”

Section: Introductionmentioning

confidence: 99%

Layer‐by‐Layer Approach to Superhydrophobic Zeolite Antireflective Coatings

Zhang

2017

Chin. J. Chem.

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Antireflection surfaces and coatings have attracted considerable interests because they can maximize light transmittance of the substrates. In this work, zeolite antireflective (ZAR) coatings are prepared via layer-by-layer (LBL) assembly of MFI-type zeolite silicalite-1 and polyelectrolyte. A micro-and macroporous hierarchical structure was obtained which contributes to the antireflective property of the zeolite coatings. The light transmittance of the coating on quartz can achieve as high as 99.3% at 650 nm. Furthermore, a superhydrophobic ZAR coating can be obtained by chemical modification with 1H,1H,2H,2H-perfluorooctyl-triethoxysilane. This work demonstrates that zeolites are excellent candidates as high transparent superhydrophobic coatings.

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“…5,6 The 2D assembly of micrometersized building blocks, however, is still not explored to a large extent, although the ability to organize them will make materials chemistry flourish. 7 Zeolite particles are ideal model microbuilding blocks for 2D assembly because of not only their ease in fabrication but also their inherent highly regular sub-nanometer-sized pore architectures, which may bring new features when being assembled into ordered 2D layers. In the recent years, great progress has been made in fabricating highly regular zeolite layers (unique orientation and high monolayer coverage) and their promising applications as high-performance molecular sieve membranes, [8][9][10][11][12][13][14][15] anisotropic photoluminescence generators, 16 light-harvesting systems, 17 optical devices, [18][19][20] selective sensors [21][22][23] etc.…”

Section: Introductionmentioning

confidence: 99%

“…28 Yoon et al developed a versatile method for depositing oriented zeolite monolayers by assembling zeolite microcrystals using organic Langmuir ARTICLE linkers. 7 A wide variety of well-known chemical principles, such as covalent linkage, 29 ionic bonding, 30 and hydrogen bonding, 31 could be exploited in this method. Moreover, on the basis of this viable seed-deposition method, a defect-free and highly boriented MFI membrane was successfully fabricated in Tsapatsis's group and exhibited excellent molecular-sieving properties in the separation of p-/o-xylene vapors.…”

Section: Introductionmentioning

confidence: 99%

Phase-Segregation-Induced Self-Assembly of Anisotropic MFI Microbuilding Blocks into Compact and Highly b-Oriented Monolayers

Liu

Yang

2011

Langmuir

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A compact and highly b-oriented MFI monolayer was fabricated with a novel phase-segregation-induced selfassembly method. When MFI microcrystals were dispersed uniformly in an appropriate dispersant (sec-butanol) containing a trace amount of binding agent (linoleic acid), these microbuilding blocks were spontaneously self-assembled into a compact monolayer at an air-liquid interface. In particular, it was observed that the binding agent took effect only after being phase-segregated from the aqueous solution. The influence of the kind of dispersants and binding agents on the final morphology of the as-prepared MFI monolayers was discussed. On the basis of these results, a mechanism was proposed to elucidate the driving force for the compact and oriented assembly of these MFI building blocks at the air-water interface.

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Organization of Zeolite Microcrystals for Production of Functional Materials

Cited by 204 publications

References 73 publications

Enhancement of the Mechanical Properties of Nanoparticulate Thin Coatings via Surface Modification and Cross‐Linking Additive

Enhancement of the Mechanical Properties of Nanoparticulate Thin Coatings via Surface Modification and Cross‐Linking Additive

Layer‐by‐Layer Approach to Superhydrophobic Zeolite Antireflective Coatings

Phase-Segregation-Induced Self-Assembly of Anisotropic MFI Microbuilding Blocks into Compact and Highly b-Oriented Monolayers

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