Fast oxygen ion migration in Cu–In–oxide bulk and its utilization for effective CO2 conversion at lower temperature
Efficient activation of CO2 at low temperature was achieved by reverse water–gas shift via chemical looping (RWGS-CL) by virtue of fast oxygen ion migration in a Cu–In structured oxide, even at lower temperatures. Results show that a novel Cu–In2O3 structured oxide can show a remarkably higher CO2 s...
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| Published in | Chemical science (Cambridge) Vol. 12; no. 6; pp. 2108 - 2113 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge
Royal Society of Chemistry
01.01.2021
The Royal Society of Chemistry |
| Subjects | |
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| Abstract | Efficient activation of CO2 at low temperature was achieved by reverse water–gas shift via chemical looping (RWGS-CL) by virtue of fast oxygen ion migration in a Cu–In structured oxide, even at lower temperatures. Results show that a novel Cu–In2O3 structured oxide can show a remarkably higher CO2 splitting rate than ever reported. Various analyses revealed that RWGS-CL on Cu–In2O3 is derived from redox between Cu–In2O3 and Cu–In alloy. Key factors for high CO2 splitting rate were fast migration of oxide ions in the alloy and the preferential oxidation of the interface of alloy–In2O3 in the bulk of the particles. The findings reported herein can open up new avenues to achieve effective CO2 conversion at lower temperatures. |
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| AbstractList | Efficient activation of CO2 at low temperature was achieved by reverse water–gas shift via chemical looping (RWGS-CL) by virtue of fast oxygen ion migration in a Cu–In structured oxide, even at lower temperatures. Results show that a novel Cu–In2O3 structured oxide can show a remarkably higher CO2 splitting rate than ever reported. Various analyses revealed that RWGS-CL on Cu–In2O3 is derived from redox between Cu–In2O3 and Cu–In alloy. Key factors for high CO2 splitting rate were fast migration of oxide ions in the alloy and the preferential oxidation of the interface of alloy–In2O3 in the bulk of the particles. The findings reported herein can open up new avenues to achieve effective CO2 conversion at lower temperatures. Efficient activation of CO 2 at low temperature was achieved by reverse water–gas shift via chemical looping (RWGS-CL) by virtue of fast oxygen ion migration in a Cu–In structured oxide, even at lower temperatures. Results show that a novel Cu–In 2 O 3 structured oxide can show a remarkably higher CO 2 splitting rate than ever reported. Various analyses revealed that RWGS-CL on Cu–In 2 O 3 is derived from redox between Cu–In 2 O 3 and Cu–In alloy. Key factors for high CO 2 splitting rate were fast migration of oxide ions in the alloy and the preferential oxidation of the interface of alloy–In 2 O 3 in the bulk of the particles. The findings reported herein can open up new avenues to achieve effective CO 2 conversion at lower temperatures. Efficient activation of CO 2 at low temperature was achieved by reverse water–gas shift via chemical looping (RWGS-CL) by virtue of fast oxygen ion migration in a Cu–In structured oxide, even at lower temperatures. |
| Author | Jun-Ichiro Makiura Tsuneki, Hideaki Sato, Yasushi Kurosawa, Yutaro Sekine, Yasushi Hashimoto, Yasushi Murakami, Kota Ogo, Shuhei Higo, Takuma |
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| Snippet | Efficient activation of CO2 at low temperature was achieved by reverse water–gas shift via chemical looping (RWGS-CL) by virtue of fast oxygen ion migration in... Efficient activation of CO 2 at low temperature was achieved by reverse water–gas shift via chemical looping (RWGS-CL) by virtue of fast oxygen ion migration... |
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| SubjectTerms | Carbon dioxide Chemistry Conversion Copper base alloys Indium oxides Ion migration Low temperature Oxidation Oxygen ions Splitting |
| Title | Fast oxygen ion migration in Cu–In–oxide bulk and its utilization for effective CO2 conversion at lower temperature |
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