Morphological Synthesis of Zeolites

Park, Sang‐Eon; Jiang, Nanzhe

doi:10.1002/9783527630295.ch5

Cited by 4 publications

(3 citation statements)

References 94 publications

(95 reference statements)

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“…Each of the samples exhibited the typical coffin-shaped crystal morphology which has been previously attributed to the use of TPABr as the structure directing agent. 15,16 As shown in the electron micrographs in Figure 2, the five silicalite-1 samples possessed varying a, b, and c dimensions (Figure 2 and Table 2). In particular, the sample I synthesis resulted in the smallest crystals (1.5 μm × 0.4 μm × 9.0 μm), while the sample V synthesis resulted in the largest crystals (35 μm × 30 μm × 120 μm).…”

Section: ■ Experimental Sectionmentioning

confidence: 97%

Effect of Crystal Size on Framework Defects and Water Uptake in Fluoride Mediated Silicalite-1

Dose¹,

Zhang

Thompson

et al. 2014

Chem. Mater.

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The relationship between framework defects and crystal size in fluoride mediated silicalite-1 was investigated through nitrogen physisorption, X-ray diffraction, and vapor adsorption of ethanol and water on samples with crystal sizes ranging from 0.4 to 30 μm in the b direction of the silicalite-1 crystals. X-ray diffraction reveals a shift in the lattice system from a predominantly monoclinic phase in smaller crystals to an orthorhombic phase in the larger crystals. 29 Si MAS studies reveal minimal differences in framework silanol defect concentration. An H-4 type hysteresis in 77 K N 2 adsorption isotherm and BdB-FHH pore size analysis reveal the presence of slit-like pores and a larger average pore size as well as a larger volume fraction of "microfissures" in the larger crystals. Pure vapor adsorption measurements show more than a 2-fold increase in water uptake from 0.21 mmol/g to 0.51 mmol/g from the smallest to largest samples at 308 K near unit activity, while ethanol uptake remains on the order of 2.4 mmol/g for all samples. An increase in desorption hysteresis with crystal size and negligible differences in isosteric heats of adsorption of water lend support to the presence of microfissure defects in the larger samples. IAST predications for binary adsorption of ethanol and water in the silicalite-1 samples reveal a 2-fold ethanol/water selectivity enhancement for dilute (<5 wt % EtOH) solutions when crystal size is reduced. This systematic study of N 2 physisorption, framework composition, and ethanol/water adsorption highlights the critical role that crystal size plays in the adsorption process, which can have significant implications for biofuel processes that produce dilute aqueous ethanol as a raw product.

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Section: ■ Experimental Sectionmentioning

confidence: 97%

Effect of Crystal Size on Framework Defects and Water Uptake in Fluoride Mediated Silicalite-1

Dose¹,

Zhang

Thompson

et al. 2014

Chem. Mater.

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“…Zeolites are micro- and mesoporous alkaline earth metal aluminosilicates with tetrahedral [SiO 4 ] 4- and [AlO 4 ] 5- networks interconnected by oxygen atoms. This porous network is sufficiently large to contain extra structural cations within its many molecular scale cavities and channels, allowing the zeolite material to adsorb molecules ranging in size from diatomic hydrogen to organic compounds measuring of several nanometers [ 25 , 26 ]. Similarly, the chemical structure of zeolites and the electronegativity imposed by the aluminates allow the incorporation of compensation cations such as transition metal cations through physical and thermochemical transformations [ 25 , 27 ].…”

Section: Introductionmentioning

confidence: 99%

Biocidal effects of organometallic materials supported on ZSM-5 Zeolite: Influence of the physicochemical and surface properties

Huenuvil-Pacheco,

Jaramillo,

Abreu

et al. 2024

Heliyon

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“…31 As a result, it is possible to achieve selective and fast crystallization of the zeolites in high yields. 32 Further, the microwave energy effectively controls the crystal morphology and particle size 33,34 and can lead to enhanced hydrophobicity in the zeolites. 35 There are several reports on the application of microwave irradiation during the synthesis of various zeolites.…”

Section: Introductionmentioning

confidence: 99%

High-Performance Microwave Synthesized Mesoporous TS-1 Zeolite for Catalytic Oxidation of Cyclic Olefins

Kim

Reddy

Park

2018

Ind. Eng. Chem. Res.

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A distinctive mesoporous titanium silicalite-1 (TS-1) was prepared by microwave-assisted postsynthetic treatment with H2O2 to generate hierarchical pore structure. For comparison, mesoporous TS-1 was also prepared with alkali or fluoride postsynthetic treatment. Synthesized catalysts were characterized by various techniques, namely, XRD, XPS, FTIR, UV–vis DRS, and others and evaluated for oxidation of cyclic olefins. The post-treated TS-1 with H2O2 and microwave irradiation exhibited a high catalytic activity in comparison to the parent TS-1. Both microwave irradiation time and temperature during postsynthetic treatment showed influence on the oxidation activity of the catalyst. The H2O2 coupled microwave irradiation generated mesoporosity in the microporous TS-1 crystals and improved its catalytic activity by the creation of external Ti species located on the TS-1 surface. Alkali or fluoride postsynthetic treated TS-1 catalysts also exhibited similar activity with that of H2O2 post-treated sample. In particular, the mesoporous TS-1 samples exhibited prominent shape selectivity in the oxidation of cyclododecene bulky molecule.

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Morphological Synthesis of Zeolites

Cited by 4 publications

References 94 publications

Effect of Crystal Size on Framework Defects and Water Uptake in Fluoride Mediated Silicalite-1

Effect of Crystal Size on Framework Defects and Water Uptake in Fluoride Mediated Silicalite-1

Biocidal effects of organometallic materials supported on ZSM-5 Zeolite: Influence of the physicochemical and surface properties

High-Performance Microwave Synthesized Mesoporous TS-1 Zeolite for Catalytic Oxidation of Cyclic Olefins

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