Grain refinement of self-supported copper electrode by multiple-redox treatment for enhanced carbon dioxide electroreduction towards carbon monoxide generation

The utilization of carbon dioxide is a major incentive for the growing field of carbon capture. Carbon dioxide could be an abundant building block to generate higher value products. Herein, we describe the use of porous copper electrodes to catalyze the reduction of carbon dioxide into higher value products such as ethylene, ethanol and, notably, propanol. For n-propanol production, faradaic efficiencies reach 4.93% at -0.83 V vs RHE, with a geometric partial current density of -1.85 mA/cm2. We have documented the performance of the catalyst in both pristine and urea-modified foams pre- and post-electrolysis. Before electrolysis, the copper electrode consisted of a mixture of cuboctahedra and dendrites. After 35-minute electrolysis, the cuboctahedra and dendrites have undergone structural rearrangement. Changes in the interaction of urea with the catalyst surface have also been observed. These transformations were characterized ex-situ using scanning electron microscopy, X-ray diffraction, and X-ray photoelectron spectroscopy. We found that alterations in the morphology, crystallinity, and surface composition of the catalyst led to the deactivation of the copper foams.

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Stationary source emissions � Determination of the mass concentration of carbon monoxide, carbon dioxide and oxygen in flue gas � Performance characteristics of automated measuring systems

10.3403/30354887u ◽

2019 ◽

Keyword(s):

Carbon Dioxide ◽

Carbon Monoxide ◽

Flue Gas ◽

Mass Concentration ◽

Performance Characteristics ◽

Measuring Systems ◽

Stationary Source

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A Unique Gas-Migration, Trapping, and Emitting Strategy for High-Loading Single Atomic Cd Sites for Carbon Dioxide Electroreduction

Nano Letters ◽

10.1021/acs.nanolett.1c00432 ◽

2021 ◽

Author(s):

Shuguang Wang ◽

Peng Zhou ◽

Lei Zhou ◽

Fan Lv ◽

Yingjun Sun ◽

...

Keyword(s):

Carbon Dioxide ◽

High Loading ◽

Gas Migration ◽

Carbon Dioxide Electroreduction

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Investigation into the Re-Arrangement of Copper Foams Pre- and Post-CO2 Electrocatalysis

Chemistry ◽

10.3390/chemistry3030048 ◽

2021 ◽

Vol 3 (3) ◽

pp. 687-703

Author(s):

Jennifer A. Rudd ◽

Sandra Hernandez-Aldave ◽

Ewa Kazimierska ◽

Louise B. Hamdy ◽

Odin J. E. Bain ◽

...

Keyword(s):

Crystal Structure ◽

Carbon Dioxide ◽

Carbon Capture ◽

Surface Composition ◽

Structural Rearrangement ◽

Copper Electrode ◽

Copper Electrodes ◽

Porous Copper ◽

Chemical Products ◽

Co2 Electrolysis

The utilization of carbon dioxide is a major incentive for the growing field of carbon capture. Carbon dioxide could be an abundant building block to generate higher-value chemical products. Herein, we fabricated a porous copper electrode capable of catalyzing the reduction of carbon dioxide into higher-value products, such as ethylene, ethanol and propanol. We investigated the formation of the foams under different conditions, not only analyzing their morphological and crystal structure, but also documenting their performance as a catalyst. In particular, we studied the response of the foams to CO2 electrolysis, including the effect of urea as a potential additive to enhance CO2 catalysis. Before electrolysis, the pristine and urea-modified foam copper electrodes consisted of a mixture of cuboctahedra and dendrites. After 35 min of electrolysis, the cuboctahedra and dendrites underwent structural rearrangement affecting catalysis performance. We found that alterations in the morphology, crystallinity and surface composition of the catalyst were conducive to the deactivation of the copper foams.

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Nitrogen and boron co‐doped carbon spheres for carbon dioxide electroreduction

ChemNanoMat ◽

10.1002/cnma.202100110 ◽

2021 ◽

Author(s):

Chunfeng Cheng ◽

Jiaqi Shao ◽

Pengfei Wei ◽

Yanpeng Song ◽

Hefei Li ◽

...

Keyword(s):

Carbon Dioxide ◽

Carbon Spheres ◽

Co Doped ◽

Carbon Dioxide Electroreduction

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Controlled atmosphere GMAW welding of transportation vehicles and production machines parts made from 30MnB5 steel

MATEC Web of Conferences ◽

10.1051/matecconf/201821603001 ◽

2018 ◽

Vol 216 ◽

pp. 03001 ◽

Cited By ~ 1

Author(s):

Evgeny Ivanayskiy ◽

Aleksei Ishkov ◽

Aleksandr Ivanayskiy ◽

Iakov Ochakovskii

Keyword(s):

Mechanical Properties ◽

Carbon Dioxide ◽

Carbon Monoxide ◽

Chemical Composition ◽

Controlled Atmosphere ◽

Shielding Gas ◽

Reducing Atmosphere ◽

Metal Composition ◽

Gmaw Welding ◽

Welding Materials

The paper studies the influence of shielding gas on the composition and the structure of weld joint metal of 30MnB5 steel applied in essential parts of automobiles and tractors. The welding was performed in inert, oxidizing and reducing atmospheres. It was established that TIG welding with argon used as shielding gas did not provide the required mechanical properties when using conventional welding materials. Carbon dioxide during MAG welding caused partial burning of alloying elements. Carbon monoxide used as shielding gas was proved to form reducing atmosphere enabling to obtain chemical composition close to the base metal composition. Metallographic examinations were carried out. The obtained results provided full-strength weld, as well as the required reliability and durability of welded components and joints.

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