New CoO−SiO2-Sol Pillared Clays as Catalysts for NOx Conversion

Choy, Jin‐Ho; Jung, Hyun Suk; Han, Yang Su; Yoon, Joo Byoung; Shul, Yong Gun; Kim, Hyun Jong

doi:10.1021/cm020201x

Cited by 65 publications

(28 citation statements)

References 34 publications

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“…[2,3] Here, we propose a new class of radiation-detection materials, composites of inorganic semiconductor quantum dots and organic semiconductors, that possess the cost and processing advantages of organic scintillators and the ionization characteristics of inorganic semiconductors. The qdot/organic semiconductor composite is designed so that ionizing radiation produces excitations predominantly in the inorganic semiconductor qdots, and these excitations are subsequently Förster-transferred [4] to the organic material.…”

Section: Methodsmentioning

confidence: 99%

“…Because of its large surface area, strong acidity, and strong adsorption and ion-exchange ability, clay has been widely used as a catalyst and catalytic support for years. [1][2][3] For example, clay-supported cobalt oxide is the catalyst for the de-NO x reaction, [4] while clay-supported iron oxide has been used as a Fischer-Tropsch catalyst. [5] As has been demonstrated, iron, nickel, or cobalt nanoparticles supported on oxides are efficient catalysts for the synthesis of carbon nanotubes (CNTs) by chemical vapor deposition (CVD), which has proven to be a cost-efficient way of mass producing CNTs.…”

mentioning

confidence: 99%

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Growth of Carbon Nanotubes on Clay: Unique Nanostructured Filler for High‐Performance Polymer Nanocomposites

2005

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High‐performance composites are produced using nanostructured clay–carbon nanotube (CNT) hybrids as a reinforcing filler. The intercalation of iron particles between the clay platelets serves as the catalyst for the growth of CNTs, while the platelets are exfoliated by the CNTs, forming the unique 3D nanostructured hybrid filler: a 2D clay platelet with several attached 1D CNTs (see Figure). The clay–CNTs hybrid can be directly incorporated into nylon‐6 by simple melt compounding.

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Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

Growth of Carbon Nanotubes on Clay: Unique Nanostructured Filler for High‐Performance Polymer Nanocomposites

2005

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“…To abate the NO x emission, various de-NOx technologies have been developed with recent improvements [4][5][6][7][8][9][10][11][12]. Selective catalytic reduction (SCR) processes were applied at some stationary emission sources such as power plants, waste incinerators, and industrial boilers to transfer NO x into N 2 and H 2 O at high temperature [4][5][6][7][8].…”

Section: Introductionmentioning

confidence: 99%

“…Selective catalytic reduction (SCR) processes were applied at some stationary emission sources such as power plants, waste incinerators, and industrial boilers to transfer NO x into N 2 and H 2 O at high temperature [4][5][6][7][8]. Furthermore, with appropriate catalysts and reducing agents such as ammonia (NH 3 -SCR) or hydrocarbons (HC-SCR), the non-thermal plasma processes could be feasible to reduce nitric oxides synergistically into N 2 [7].…”

Section: Introductionmentioning

confidence: 99%

Photocatalytic conversion of NO using TiO2–NH3 catalysts in ambient air environment

et al. 2004

Applied Catalysis B: Environmental

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Photocatalytic conversion of nitric oxide (NO) in ambient air was studied in a continuous-flow photoreactor system at room temperature using different TiO 2 catalysts prepared with different titanium precursors of Ti(SO 4 ) 2 , TiOSO 4 , and Ti(O-Bu) 4 by either a moderate-temperature hydrothermal process or a hydrothermal reflux process. The physicochemical properties of the prepared catalysts were characterized by XRD, BET, FTIR, and SEM. Analytical results showed that the crystallinity, morphology, nitrogen adsorption-desorption isotherms, specific surface area, and pore size distribution of catalysts were significantly affected by the precursors and hydrothermal processes, but the crystal structure and crystal size of catalysts were not significantly influenced. The NO conversion experiments demonstrated that the TiO 2 catalysts prepared by the moderate-temperature hydrothermal process without ammonia pretreatment could effectively reduce NO to different low levels, in which the catalysts with longer aging time of more than 12 h performed better than the catalysts with shorter aging time. However, it was found that the NO 2 concentration in outlet gas was gradually increased with extension of an experimental period. Two TiO 2 catalysts (TOSO-NH 3 and TOB-NH 3 ) prepared by the hydrothermal reflux process with ammonia pretreatment demonstrated a very good performance in NO conversion and also maintained a low level of NO 2 concentration in outlet gas. This study indicated that using the TiO 2 catalysts modified with ammonia pretreatment in photocatalytic reaction could provide a good approach to effectively eliminate the accumulation of NO 2 product from NO oxidation in the system and to achieve a sustainable process, which may be applicable for NO elimination in ambient air environment.

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“…[5] Montmorillonite (MMT) is well known for its high aspect ratio structure and is widely used as a template to create various hybrid structures. [6][7][8][9][10][11] However, no literature has been reported to date on MMT acting as a template to prepare sheet-like polymers. We report here a study using MMT as a template to load an organic precursor and then allow polymerization to proceed in the confined layer space of MMT.…”

Section: Introductionmentioning

confidence: 99%