Facile Microwave Synthesis of Hierarchical Porous Copper Oxide and Its Catalytic Activity and Kinetics for Carbon Monoxide Oxidation

Zedan, Abdallah F.; Aljaber, Amina S.; El‐Shall, M. Samy

doi:10.1021/acsomega.2c05399

Cited by 5 publications

(4 citation statements)

References 75 publications

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“…Their work particularly emphasized the synthesis of ceria-reduced graphene oxide composites, which exhibited exceptional performance in CO oxidation, surpassing that of stand-alone materials. Another notable advancement was presented by Zedan et al in their exploration of copper oxide (CuO)-based nanomaterials . They demonstrated a unique microwave synthesis approach that yielded hierarchically porous copper oxide with enhanced catalytic properties.…”

Section: Resultsmentioning

confidence: 99%

“…Another notable advancement was presented by Zedan et al in their exploration of copper oxide (CuO)-based nanomaterials. 33 They demonstrated a unique microwave synthesis approach that yielded hierarchically porous copper oxide with enhanced catalytic properties. These materials showed superior performance in CO oxidation compared with conventionally synthesized CuO.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

See 1 more Smart Citation

Promotional Effects of Heat Treatments on Pt–CeO₂ Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation

Wang,

Umesh,

Kameoka

et al. 2024

ACS Appl. Nano Mater.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Experimental Sectionmentioning

confidence: 99%

Promotional Effects of Heat Treatments on Pt–CeO₂ Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation

Wang,

Umesh,

Kameoka

et al. 2024

ACS Appl. Nano Mater.

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“…Zedan et al. synthesized a new type of 3D spongy porous CuO by a microwave method, which has large porosity and specific surface area, high thermal stability and reducibility . Their work demonstrated that this particular structure has a significant positive effect on catalytic activity.…”

Section: Synthesis Of Cu-based Semiconductor Nanomaterialsmentioning

confidence: 99%

Design, Synthesis, and Diverse Applications of Cu-Based Photocatalysts: A Review

Du,

Tang,

et al. 2024

Crystal Growth & Design

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With the increasing variety of Cu-based semiconductor nanomaterials and the development of synthesis technology, the crystal shape and morphology of semiconductor materials have become controllable factors. Due to their low price, abundant reserves, and suitable band gap, Cu-based semiconductor nanomaterials have bright application prospects for the treatment of photocatalytic environments. A comprehensive summary of the basic theory and research progress of Cu-based semiconductor nanomaterials, such as crystal design, morphology control, and photocatalytic modification strategies and mechanisms, is indispensable. However, a comprehensive review of this aspect has not been reported recently. This review summarizes the synthetic methods of copper oxides (CuO, Cu 2 O), copper sulfides (CuS, Cu x S, Cu 2 S), copper selenides (CuSe, Cu 2−x Se, Cu 2 Se), as well as other novel Cu-based semiconductor nanomaterials such as CuFe 2 O 4 , Cu 3 N, Cu 5 V 2 O 10 , CuCo 2 O 4 , CuWO 4 , Cu 3 P, and the application strategies and mechanisms in photocatalytic removal of pollutants, photocatalytic hydrogen evolution, and photocatalytic reduction of CO 2 . The summary of synthesis methods and crystal surface control is beneficial for the preparation of better catalysts. We firmly believe that this review can provide valuable information for the further development of Cu-based semiconductor nanomaterials.

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“…Also, CO is one of the undesired and deteriorating impurity gases that can poison catalysts used in some technological applications such as polymer electrolyte membrane fuel cells even at trace levels [4]. Therefore, technological approaches have been introduced for the elimination of CO via direct capture using CO fixation materials [5], electrocatalytic oxidation [6], photocatalytic oxidation [7], and thermochemical catalytic oxidation into carbon dioxide (CO 2 ) [8,9]. The thermochemical catalytic oxidation of highly toxic CO into less toxic CO 2 by using a heterogeneous catalyst is an efficient and reliable technique for the continuous removal of CO in the gas phase [10].…”

Section: Introductionmentioning

confidence: 99%

Rational synthesis of gold-ceria catalysts supported on reduced graphene oxide with remarkable activity for CO oxidation

Zedan

Moussa²,

El‐Shall³

2023

Mater. Res. Express

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Gold (Au)- and ceria (CeO2)-based catalysts are amongst the most active catalysts for the gas phase CO oxidation reaction. Nevertheless, nanosized Au and CeO2 catalysts may encounter heat-induced sintering in thermochemical catalytic reactions. Herein, we report on the rational one-pot synthesis of ceria-reduced graphene oxide (CeO2-RGO) using a facile ethylenediamine (EDA)-assisted solvothermal method. Standalone RGO and free-standing CeO2 were also prepared using the same EDA-assisted method for comparison. We then incorporated Au into the prepared samples by colloidal reduction and evaluated the catalytic activity of the different catalysts for CO oxidation. The RGO-supported CeO2 surpassed the free-standing CeO2, exhibiting a 100% CO conversion at 285 oC compared to 340 oC in the case of CeO2. Interestingly, the RGO-supported Au/CeO2 catalysts outperformed the Au/CeO2 catalysts and achieved a 100% CO conversion at 76 oC compared to 113 oC in the case of Au/CeO2. Additionally, the Au/CeO2-RGO catalyst demonstrated remarkable room-temperature activity with simultaneous 72% CO conversion. This outstanding performance was attributed to the unique dispersion and size characteristics of the RGO-supported CeO2 and Au catalysts in the ternary Au/CeO2-RGO nanocomposite, as revealed by TEM and XPS, among other techniques.

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Facile Microwave Synthesis of Hierarchical Porous Copper Oxide and Its Catalytic Activity and Kinetics for Carbon Monoxide Oxidation

Cited by 5 publications

References 75 publications

Promotional Effects of Heat Treatments on Pt–CeO₂ Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation

Promotional Effects of Heat Treatments on Pt–CeO₂ Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation

Design, Synthesis, and Diverse Applications of Cu-Based Photocatalysts: A Review

Rational synthesis of gold-ceria catalysts supported on reduced graphene oxide with remarkable activity for CO oxidation

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Facile Microwave Synthesis of Hierarchical Porous Copper Oxide and Its Catalytic Activity and Kinetics for Carbon Monoxide Oxidation

Cited by 5 publications

References 75 publications

Promotional Effects of Heat Treatments on Pt–CeO2 Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation

Promotional Effects of Heat Treatments on Pt–CeO2 Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation

Design, Synthesis, and Diverse Applications of Cu-Based Photocatalysts: A Review

Rational synthesis of gold-ceria catalysts supported on reduced graphene oxide with remarkable activity for CO oxidation

Contact Info

Product

Resources

About

Promotional Effects of Heat Treatments on Pt–CeO₂ Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation

Promotional Effects of Heat Treatments on Pt–CeO₂ Nanocatalyst Derived via Hydrothermal Leaching for CO Oxidation