The Role of Multiwall Carbon Nanotubes in Cu‐BTC Metal‐Organic Frameworks for CO<sub>2</sub> Adsorption

Ullah, Sami; Shariff, Azmi Mohd; Bustam, Mohamad Azmi; Elkhalifah, Ali E.I.; Gonfa, Girma; Kareem, Firas A. Abdul

doi:10.1002/jccs.201600277

Cited by 27 publications

(8 citation statements)

References 50 publications

(57 reference statements)

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“…[17,18] Here, we demonstrate the incorporation of a metal-organic framework (MOF) as well as a calcined product of the MOF to modify surface-active sites of TiO 2 for a better photocatalytic activity. [21][22][23][24][25] MIL-53(Fe), in particular, is a promising MOF for the removal of organic pollutants due to its good absorption property as well as responses to the UV-Vis region, which are at a lower bandgap energy (2.88 eV). [19,20] To date, MOFs have displayed various properties, for instance gas adsorption, adsorption of organic and inorganic pollutants, sensing, separations, catalysis, photocatalysis, and drug delivery.…”

Section: Introductionmentioning

confidence: 99%

Enhancing photocatalytic activity of titanium dioxide through incorporation of MIL‐53(Fe) toward degradation of organic dye

Othman

Radde

Puah

et al. 2018

J Chinese Chemical Soc

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Photocatalytic activity of titanium(IV) oxide (TiO2) can be enhanced through modification of its surface‐active sites. Here, iron(III) carboxylate [MIL‐53[Fe]]‐incorporated TiO2 (as MIL‐53(Fe)/TiO2) was prepared using a hydrothermal method. This material was then calcined at 500°C to obtain a MIL‐53(Fe)‐derived γ‐Fe2O3/TiO2 photocatalyst. A photocatalytic study of MIL‐53(Fe)/TiO2 and MIL‐53(Fe)‐derived γ‐Fe2O3/TiO2 toward cationic methylene blue (MB) and anionic methyl orange (MO) showed that MIL‐53(Fe)/TiO2 (0.25 wt%) and MIL‐53(Fe)‐derived γ‐Fe2O3/TiO2 (0.75 wt%) resulted the best degree of dye degradation. The MIL‐53(Fe)‐derived γ‐Fe2O3/TiO2 (0.75 wt%) composite for instance is capable of degrading almost 100% of 20‐ppm MB and MO, respectively, within 6 hr. Photocatalytic degradation of MB and MO was well fitted to the Langmuir‐Hinshelwood pseudo‐first order kinetics model, which indicates physisorption as the key partway that facilitates dye decomposition on the surface of a photocatalyst under UV‐A irradiation. This study provides new insights into the exploration of MILs/TiO2 materials for the environmental remediation and pollution control.

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Section: Introductionmentioning

confidence: 99%

Enhancing photocatalytic activity of titanium dioxide through incorporation of MIL‐53(Fe) toward degradation of organic dye

Othman

Radde

Puah

et al. 2018

J Chinese Chemical Soc

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“…Nowadays, the most demanding gas treatment function is the removal of CO 2 from natural gas streams and flue gas streams . Some natural gas contains a high percentage of CO 2, which usually falls in the range of 65–70%, and some are as high as about 80% . Natural gas can entail only below 2–3% of CO 2 according to pipeline specification .…”

Section: Introductionmentioning

confidence: 99%

“…1,2 Some natural gas contains a high percentage of CO 2, which usually falls in the range of 65-70%, and some are as high as about 80%. [3][4][5][6][7] Natural gas can entail only below 2-3% of CO 2 according to pipeline specification. 8,9 CO 2 can react with water to form carbonic acid, which is highly corrosive.…”

Section: Introductionmentioning

confidence: 99%

High‐temperature CO₂ removal from CH₄ using silica membrane: experimental and neural network modeling

et al. 2019

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Inorganic membranes can operate under harsh conditions. However, successful synthesis of inorganic membranes is still challenging, and its performance depends on many factors. This work reports the effect of dip‐coating duration, inlet pressure, and inlet flow rate on the flux, permeability, and selectivity of silica membranes. A silica membrane was prepared by the deposition of silica sol onto porous alumina support. The permeability test was conducted at 100 °C using a single gas of CO2 and CH4. The highest flux was observed at the maximum inlet pressure and inlet flow rate for the membrane prepared at the minimum dip‐coating duration. The neural network modeling of the membrane predicted permeabilities showed a considerably high validity regression (R ≈ 0.99) of the predicted data linked to the experimental sets. The separation factor (α) was the highest at the maximum dip‐coating duration. The synthesized silica membrane has potential for CO2/CH4 separation under harsh operating conditions. © 2019 Society of Chemical Industry and John Wiley & Sons, Ltd.

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“…Even with the wide range of utilization in this field, there is still a lack of information on the characteristic behavior of CO 2 adsorption in multicomponent mixtures. There are no detailed studies for comparison between these types of commercial adsorbents, which are still pioneering materials for CO 2 removal, related to their partial component uptake performances for a wide range of mixture combinations and conditions.…”

Section: Introductionmentioning

confidence: 99%

“…Most of the studies on the separationo fC O 2 concerned new adsorbents such as metal-organic frameworks (MOFs), [29][30][31][32][33][34] N-doped porous carbons (NPCs), [35] microporous coordination polymers (MCPs), [36] covalento rganic polymers (COPs), [37][38][39] and porous organic polymers (POPs) [40][41][42] compared to commercial adsorbents (i.e., molecular sieves,a ctivated carbons,a nd silica gel) [43][44][45][46] and relied on theoretical selectivity analysis.E ven with the wide range of utilization in this field, there is still al ack of information on the characteristic behavior of CO 2 adsorption in multicomponent mixtures.T here are no detailed studies for comparison between these types of commercial adsorbents, which are still pioneering materials for CO 2 removal, [47][48][49] related to their partialc omponent uptake performances for awide range of mixturec ombinations and conditions. Molecular sieve zeolite (MSZ) adsorbents are one of the most popular solid adsorbents utilizedn ormally for the separation and purification of multicomponent mixtures.T hese adsorbents have low Si/Al ratios (e.g.,1 3X and 5A zeolite), which results in higher uptake amounts of CO 2 at low pressures ( % 2.5 mmol g À1 at 298 Ka nd 0.1 bar).…”

Section: Introductionmentioning

confidence: 99%

Experimental and Neural Network Modeling of Partial Uptake for a Carbon Dioxide/Methane/Water Ternary Mixture on 13X Zeolite

et al. 2017

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In this work, GERG2008 EoS embedded in a volumetric–gravimetric technique was utilized to measure multicomponent partial uptakes into the mixture. The sophisticated combination may overlap recent theoretical measurements and replace it with real‐time and experimental selective adsorption analysis. 13X zeolite was utilized as a solid adsorbent for the adsorption of binary and ternary CO2/CH4/H2O mixtures. Premixed and preloaded water vapor was studied at 323 K temperature and up to 10 bar pressure. The isotherms of individual components within the mixture were identified and compared to the adsorption data of the pure components for assured benchmarking and validation. Artificial neural network (ANN) modeling was used to predict ternary mixtures. The ANN results showed a good agreement with the experimental data. Moreover, simulated configurations by utilizing an ANN model reflected the high consistency. We identified the behavior of the single components in ternary and higher multicomponent mixtures.

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The Role of Multiwall Carbon Nanotubes in Cu‐BTC Metal‐Organic Frameworks for CO₂ Adsorption

Cited by 27 publications

References 50 publications

Enhancing photocatalytic activity of titanium dioxide through incorporation of MIL‐53(Fe) toward degradation of organic dye

Enhancing photocatalytic activity of titanium dioxide through incorporation of MIL‐53(Fe) toward degradation of organic dye

High‐temperature CO₂ removal from CH₄ using silica membrane: experimental and neural network modeling

Experimental and Neural Network Modeling of Partial Uptake for a Carbon Dioxide/Methane/Water Ternary Mixture on 13X Zeolite

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The Role of Multiwall Carbon Nanotubes in Cu‐BTC Metal‐Organic Frameworks for CO2 Adsorption

Cited by 27 publications

References 50 publications

Enhancing photocatalytic activity of titanium dioxide through incorporation of MIL‐53(Fe) toward degradation of organic dye

Enhancing photocatalytic activity of titanium dioxide through incorporation of MIL‐53(Fe) toward degradation of organic dye

High‐temperature CO2 removal from CH4 using silica membrane: experimental and neural network modeling

Experimental and Neural Network Modeling of Partial Uptake for a Carbon Dioxide/Methane/Water Ternary Mixture on 13X Zeolite

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Product

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The Role of Multiwall Carbon Nanotubes in Cu‐BTC Metal‐Organic Frameworks for CO₂ Adsorption

High‐temperature CO₂ removal from CH₄ using silica membrane: experimental and neural network modeling