Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products
Photocatalytic CO2 conversion to carbon-based products has been proven as a versatile method to manage carbon balance. Engineering defects into photocatalysts is an effective strategy to maneuver their performance for CO2 reduction. This critical review summarizes the advantages, state-of-the-art pr...
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sg-ntu-dr.10356-1706502023-09-25T04:23:32Z Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products Di, Jun Hao, Gazi Liu, Guigao Zhou, Jiadong Jiang, Wei Liu, Zheng School of Materials Science and Engineering Engineering::Materials Vacancies Surface Reactions Photocatalytic CO2 conversion to carbon-based products has been proven as a versatile method to manage carbon balance. Engineering defects into photocatalysts is an effective strategy to maneuver their performance for CO2 reduction. This critical review summarizes the advantages, state-of-the-art progress, remaining challenges, and perspectives regarding defective materials for CO2 photoreduction, especially based on two-dimensional materials. Different types of defects are employed to tailor the electronic structure, atomic coordination configuration, carrier concentration or electrical conductivity for CO2 photoreduction, namely anion vacancies, cation vacancies, vacancy pairs, planar defects and volume defects. The strategies for defect construction, defect identification are summarized. The key roles of various defects for CO2 photoreduction from various aspects are presented, such as light absorption and electronic structure, charge separation and transfer, reactant adsorption and activation, reaction energy barriers, reaction pathways. Especially, the C[sbnd]C coupling via defect engineering is highlighted, certainly shows greater potentiality for future CO2 photoreduction. Finally, major challenges and opportunities regarding the future exploration of defective materials for CO2 photoreduction are presented. Ministry of Education (MOE) This work was supported by National Natural Science Foundation of China (22205108), Jiangsu Specially Appointed Professorship, Singapore Ministry of Education AcRF Tier 2 (MOE2019-T2-2-105), AcRF Tier 1 RG4/17, RG161/19, Fundamental Research Funds for the Central Universities (No. 30922010302) and Start-Up Grant from Nanjing University of Science and Technology (No. AE89991/397). 2023-09-25T04:23:32Z 2023-09-25T04:23:32Z 2023 Journal Article Di, J., Hao, G., Liu, G., Zhou, J., Jiang, W. & Liu, Z. (2023). Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products. Coordination Chemistry Reviews, 482, 215057-. https://dx.doi.org/10.1016/j.ccr.2023.215057 0010-8545 https://hdl.handle.net/10356/170650 10.1016/j.ccr.2023.215057 2-s2.0-85148635335 482 215057 en MOE2019-T2-2-105 RG4/17 RG161/19 Coordination Chemistry Reviews © 2023 Published by Elsevier B.V. All rights reserved. |
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Engineering::Materials Vacancies Surface Reactions Di, Jun Hao, Gazi Liu, Guigao Zhou, Jiadong Jiang, Wei Liu, Zheng Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products |
| description |
Photocatalytic CO2 conversion to carbon-based products has been proven as a versatile method to manage carbon balance. Engineering defects into photocatalysts is an effective strategy to maneuver their performance for CO2 reduction. This critical review summarizes the advantages, state-of-the-art progress, remaining challenges, and perspectives regarding defective materials for CO2 photoreduction, especially based on two-dimensional materials. Different types of defects are employed to tailor the electronic structure, atomic coordination configuration, carrier concentration or electrical conductivity for CO2 photoreduction, namely anion vacancies, cation vacancies, vacancy pairs, planar defects and volume defects. The strategies for defect construction, defect identification are summarized. The key roles of various defects for CO2 photoreduction from various aspects are presented, such as light absorption and electronic structure, charge separation and transfer, reactant adsorption and activation, reaction energy barriers, reaction pathways. Especially, the C[sbnd]C coupling via defect engineering is highlighted, certainly shows greater potentiality for future CO2 photoreduction. Finally, major challenges and opportunities regarding the future exploration of defective materials for CO2 photoreduction are presented. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Di, Jun Hao, Gazi Liu, Guigao Zhou, Jiadong Jiang, Wei Liu, Zheng |
| format |
Article |
| author |
Di, Jun Hao, Gazi Liu, Guigao Zhou, Jiadong Jiang, Wei Liu, Zheng |
| author_sort |
Di, Jun |
| title |
Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products |
| title_short |
Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products |
| title_full |
Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products |
| title_fullStr |
Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products |
| title_full_unstemmed |
Defective materials for CO₂ photoreduction: from C₁ to C₂₊ products |
| title_sort |
defective materials for co₂ photoreduction: from c₁ to c₂₊ products |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170650 |
| _version_ |
1779156809976643584 |